JP2023091459A - Inspection management device and inspection management program - Google Patents

Abstract

To provide an inspection management device capable of efficiently patrolling and inspecting equipment and instruments of inspection objects in a facility.SOLUTION: An inspection management device comprises an inspection plan generation unit, an inspection result counting unit, a measurement result collection unit, and an inspection plan correction unit. The inspection plan generation unit generates a first inspection schedule including an inspection route for patrolling and inspecting at least one first inspection object article by an inspector in a facility. The inspection result counting unit counts inspection results with respect to the first inspection object article due to patrol inspection based on the first inspection schedule. The measurement result collection unit collects measurement results by a measuring instrument, with respect to a second inspection object article which is not an object of the patrol inspection due to the inspection schedule different from the first inspection object article. The inspection plan correction unit, when it is discriminated that the second inspection object article is in a predetermined state on the basis of the measurement results, generates a second inspection schedule obtained by correcting the first inspection schedule, including an inspection route for setting the second inspection object article as the object of the patrol inspection.SELECTED DRAWING: Figure 1

Description

An embodiment of the present invention relates to an inspection management device and an inspection management program.

Equipment and devices in the facility must be inspected without fail to maintain their function and safety. Depending on the subject of inspection, there are things that are legally required to be self-inspected, and there are things that are required to create and submit a ledger of the inspection results. There are also target facilities and equipment that require periodical inspections by law or by the manufacturer. Conventionally, systems for supporting daily patrols, inspections, and examinations in facilities have also been considered (see, for example, Patent Document 1).
Even if it is not clearly documented, it is necessary for the manager of the facility to understand the operation status of facilities and equipment. It has been done in

In this way, it is assumed that (1) patrols, (2) inspections, and (3) regular inspections will be carried out for facilities, equipment, or articles to be managed, according to facility conditions. However, due to the lack of inspectors, etc., the contractors who perform inspections and periodic inspections are different for each facility and equipment in the facility. There is a current situation where (1) patrols and (2) inspections tend to be neglected.

Against this background, patrol inspections have been carried out by inspectors on the side of managing facilities, equipment or goods in facilities, which are of various types, old and new. However, the patrol inspection of various devices is not necessarily performed efficiently, and there is a problem that it is desired to make the patrol inspection necessary, sufficient and efficient.

Furthermore, in recent years, portable inspection electronic devices, which are highly convenient for digitizing and collectively managing inspection data, have begun to be used for creating forms and ledger sheets. Facilities and equipment to be inspected are patrols, inspected, and recorded in forms.

On the other hand, there are various conventional facilities and equipment in the facility, such as status observation by remote monitoring equipment, and there are facilities and equipment that are inspected by methods other than inspection by electronic inspection equipment. .

As a result, due to insufficient patrols and inspections of some facilities and equipment, it is not possible to expect preventive measures or understanding of signs of failure in advance of major events, and maintenance and inspection of facilities and equipment. It is difficult to operate.

Japanese Patent No. 4688017

In this way, conventionally, inspection electronic equipment, which is highly convenient for digitizing inspection data and collectively managing it, is used to patrol and inspect facilities and equipment to be inspected. On the other hand, in facilities, various conventional facilities and equipment are monitored by, for example, state observation by remote monitoring equipment, and are not subject to patrols and inspections using electronic inspection equipment.

For facilities and equipment that are normally monitored by remote monitoring equipment, it is not possible to sufficiently confirm the situation by monitoring by remote monitoring equipment, and whether it is within the range of normal operation or no signs of failure have occurred. There are situations where it is desirable to conduct patrols and inspections in order to grasp whether

However, the work efficiency of the patrol inspection is low if the target facility/equipment is inspected every time such equipment/equipment is generated.

The present invention has been made in consideration of the above-mentioned circumstances, and its object is to provide an inspection management device and an inspection management program that can efficiently patrol and inspect facilities and equipment to be inspected in a facility. to do.

In order to solve the above problems, the inspection management device in this embodiment has an inspection plan generation section, an inspection result totalization section, a measurement result collection section, and an inspection plan correction section. The inspection plan generation unit generates a first inspection schedule including an inspection route for patrol inspection of at least one first inspection target article by an inspector in the facility. The inspection result totaling unit totals the inspection results for the first inspection target article by the patrol inspection based on the first inspection schedule. The measurement result collection unit collects the measurement results of the second inspection target article, which is not subject to the patrol inspection according to the inspection schedule different from that of the first inspection target article, by the measuring device. The inspection plan correction unit, when it is determined that the second inspection object is in a predetermined state based on the measurement result, selects an inspection route for patrol inspection of the second inspection object. generating a second inspection schedule that is a modification of the first inspection schedule, comprising:

The block diagram which shows the structure of the inspection system of this embodiment. The block diagram which shows the structure of the inspection system of this embodiment. FIG. 2 is a diagram conceptually showing a facility information/inspection facility information DB according to the embodiment; FIG. 2 is a diagram conceptually showing an inspection schedule/route information DB according to the embodiment; FIG. 2 is a diagram conceptually showing an inspection data/log information DB according to the embodiment; The figure for demonstrating the flow of operation|use of an inspection result. FIG. 6 is a diagram showing an example of a screen display visualized/graphed in the inspection electronic device 6; FIG. 4 is a diagram showing an image of patrol inspection according to an inspection schedule using an inspection electronic device according to the present embodiment; 4 is a flowchart for explaining the operation of the patrol inspection management server according to the embodiment; The figure which shows an example of the check date candidate list|wrist in this embodiment. The figure which shows the specific example of the facility equipment which patrols and inspects. FIG. 5 is a diagram showing an example of an inspection work form corresponding to an inspection schedule before correction displayed on the inspection electronic device according to the embodiment; FIG. 4 is a diagram showing an example of an inspection work form corresponding to a modified inspection schedule after correction displayed on the electronic device for inspection according to the present embodiment; FIG. 8 is a diagram showing another example of an inspection work form corresponding to the modified inspection schedule after correction displayed on the inspection electronic device according to the present embodiment; FIG. 5 is a diagram showing an example of an inspection work form of a safety patrol report displayed on the electronic device for inspection according to the embodiment;

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of the present invention will be described with reference to the drawings.

1 and 2 are block diagrams showing the configuration of the inspection system of this embodiment.

The inspection system in this embodiment includes a patrol inspection management server 2 , a remote monitoring management server 4 , and electronic equipment 6 for inspection.

The patrol inspection management server 2 performs inspections using portable inspection electronic equipment 6 for equipment, equipment, items (hereinafter referred to as inspection target items R (R1, R2, R3, etc.)) in the facility. Manage patrols and inspections by personnel. The patrol inspection management server 2 is implemented with computer functions, and is provided with a processor, a memory, a storage device, a communication device, and the like. The memory stores an inspection management program for realizing various functions in the computer. The processor can realize the function of each unit by executing an inspection management program for patrol inspection management.

The patrol inspection management server 2 manages information related to facility information/inspection equipment (including equipment, items, etc.), collects or manages information related to patrol inspection schedules and inspection routes for items to be inspected, and manages information for inspection. It has a function of collecting inspection data indicating the results of patrols and inspections of items to be inspected through the electronic device 6 and managing/aggregating them.

Furthermore, the patrol inspection management server 2 creates patrol inspection schedules and inspection routes that add patrol inspections for the equipment, devices, and items based on the status of facilities, equipment, and items that are not normally subject to patrol inspection. It has a function to collect and manage/aggregate the results of generation and patrol inspections.

The inspection electronic device 6 is used for patrol inspection of inspection objects such as facilities, equipment, and articles in the facility. The electronic device for inspection 6 acquires information (inspection plan) related to a patrol inspection schedule and an inspection route for an item to be inspected from the patrol inspection management server 2, and performs a patrol inspection of facilities according to the inspection plan. It has a function of inputting obtained inspection results and transmitting the inspection results to the patrol inspection management server 2 . The inspection electronic device 6 is implemented with computer functions, and is provided with a processor, a memory, a storage device, a communication device, and the like. The memory stores an inspection management program for patrol inspection for realizing various functions in the computer. The processor can realize the function of each unit by executing an inspection management program for patrol inspection. The inspection electronic device 6 can be implemented by, for example, a smartphone, a tablet personal computer (PC), a dedicated inspection device, or the like.

The remote monitoring management server 4 manages equipment, devices, and items (hereinafter referred to as remote monitoring target items D (D1, . ) through sensors 20 (20-1, . . . , 20-n). Items D to be remotely monitored include not only equipment and facilities whose installation location is fixed, but also permanent equipment that can be moved (information equipment such as personal computers, equipment such as fire extinguishers, etc.). The object can be a warehouse, a room, or a doorway (door, etc.) through which a person enters or exits, such as a no-entry area, in which goods or the like are stored. The remote monitoring management server 4 is implemented with computer functions, and is provided with a processor, a memory, a storage device, a communication device, and the like. The memory stores an inspection management program for realizing various functions in the computer. The processor can realize the function of each unit by executing an inspection management program for remote monitoring.

The remote monitoring management server 4 manages information related to facility information/inspection equipment (including equipment, goods, etc.), collects and manages/aggregates inspection data (measurement results) collected by remote monitoring through the sensors 20, etc. has the function of

In the inspection system according to the present embodiment, based on the results of remote measurement of the remote inspection object remotely monitored by the remote monitoring management server 4, when the inspector needs to perform an inspection, etc., the inspector can perform patrol inspection management. The inspection schedule (inspection route) for patrol inspection using the inspection electronic device 6 managed in the server 2 is corrected, and only the facilities etc. targeted for the patrol inspection using the inspection electronic device 6 In addition, we will also make it possible to conduct patrol inspections together with items to be remotely inspected.

As a result, there is no need to respond individually whenever a situation arises that requires inspection, etc., of items subject to remote inspection. , there is an effect that patrol inspection can be done efficiently. Inspection targets are not limited to equipment management, but include equipment security targets, so that during patrols, not only equipment inspection but also work related to security and disaster prevention (facility management including equipment) can be performed. Therefore, if an inspector of the entire facility or a security (security) person other than the inspector also serves as an inspector who uses the electronic device 6 for inspection, it is possible to expect an improvement in patrol work efficiency.

The patrol inspection management server 2, as shown in FIG. 14 and a communication unit 16 .

The control unit 10 includes an inspection plan generation unit 10A, an inspection result aggregation unit 10B, a measurement result collection unit 10C, an inspection plan correction unit 10D, and inspection results, which are realized by executing an inspection management program for patrol inspection management by a processor. It has functions of a transmission unit 10E, a total data output unit 10F, and a schedule selection unit 10G.

The control unit 10 can input various data and output (display) various information through an operation unit 18 having a display such as a display and an input device such as a keyboard and a touch panel.

The inspection plan generation unit 10A generates an inspection schedule (first inspection schedule) including an inspection route for patrol inspection of at least one inspection target article R (R1, R2, R3, . . . ) by an inspector in the facility. /inspection equipment information DB 12, inspection schedule/route information DB 13, and inspection data/log information DB 14, and recorded in the inspection schedule/route information DB 13.

The inspection result aggregating unit 10B collects the inspection target articles R by round inspection using the inspection electronic device 6 based on the inspection schedule generated by the inspection plan generation unit 10A or the corrected inspection schedule generated by the inspection plan correction unit 10D. (and remote monitoring target article D) are aggregated and recorded in the inspection data/log information DB 14 . The inspection result aggregating unit 10B further aggregates the inspection results for the remote monitoring target article D when the patrol inspection is performed based on the inspection schedule in which the remote monitoring target article D is added to the patrol inspection targets.

The measurement result collection unit 10C collects the measurement results of the remote monitoring object D, which is different from the inspection object R that is the object of the normal patrol inspection and is not the object of the patrol inspection according to the inspection schedule, by the measuring device, and collects the inspection data. / Record in the log information DB 14 . The measuring equipment includes, for example, a mobile sensor 19 (portable measuring equipment) temporarily used to collect data indicating the status of the remotely monitored article D, and sensors used for remote monitoring by the remote monitoring management server 4. 20 can be used.

The mobile sensor 19 is a sensor installed temporarily for the purpose of temporarily observing the state of the article D to be remotely monitored. The mobile sensor 19 has a function of recording measurement data such as temperature, humidity, vibration, illuminance, sound, and images (still images and moving images). For example, the mobile sensor 19 detects measurement data indicating the operation status of the remotely monitored article D by being placed on the remotely monitored article D, and records the measured data for a certain measurement period. The mobile sensor 19 is formed to be connectable to, for example, a connection terminal of the inspection electronic device 6 to an external device, and is connected to the inspection electronic device 6 to read the measurement data recorded during the measurement period.

The measurement results are not limited to the measurement data measured by the measuring equipment, but are not limited to the inspection results (normal/abnormal) based on the measurement data, but also the observation results of the operation status of the remotely monitored article D (time of use, number of users, etc.). (the state above the threshold value), the determination result of the status of the remotely monitored article D, and log information including past measurement results and inspection results by an inspector.

In addition, when an image sensor (camera) is used as the measuring device, the situation is determined based on the image of the article D to be remotely monitored, such as the situation of people entering and exiting facilities, rooms, and restricted areas. Alternatively, as a result of determining the situation such as the number of times of use of the article D to be remotely monitored, information indicating the situation of a disaster (flooding due to heavy rain, etc., fire, collapse, etc.) in a facility may be collected as a measurement result.

As a result, it is not necessary to determine whether or not a patrol inspection is necessary based on the condition of the remotely monitored article D itself, but it is also possible to determine whether or not a patrol inspection is necessary depending on the location (environment) where the remotely monitored article D is installed. can be determined.

The measurement result collection unit 10C collects, for example, measurement results from the sensors 20 from the remote monitoring management server 4 (monitoring device) that monitors the remotely monitored article D, and also directly from the sensors 20 by wireless communication or the like. In addition, data from mobile sensors 19 may be collected through inspection electronics 6 . In addition to the measurement results, the measurement result collection unit 10C also collects the installation position information of the remotely monitored article D to be measured, in order to correct the inspection schedule. By collecting location information, it is possible to efficiently modify inspection routes.

Based on the measurement results collected by the measurement result collection unit 10C, the inspection plan correction unit 10D determines that the remotely monitored article D is in a predetermined state that requires patrol inspection. A modified inspection schedule (second inspection schedule) is generated by modifying the inspection schedule for the normal patrol inspection, including the modified inspection route for patrol inspection of the remote monitoring object D to be inspected, and the inspection schedule/route information Record in DB13.

For example, the inspection plan modification unit 10D determines whether or not the measurement result (measurement data) collected by the measurement result collection unit 10C exceeds a preset inspection threshold. If there is a target article D, the inspection schedule can be modified to generate a modified inspection schedule.

When the measurement result collected by the measurement result collection unit 10C includes the installation position information of the remotely monitored article D, the inspection plan correction unit 10D determines an inspection route based on the installation position information. Generate a remedial inspection schedule that includes: In addition, the inspection plan correction unit 10D provides a plurality of corrected inspection schedule candidates with different inspection routes (for example, different inspection dates, different inspection schedules before ) can be generated and selected by the processing by the schedule selection unit 10G.

Based on the corrected inspection schedule created by the inspection plan correction unit 10D, the inspection result transmission unit 10E transmits the inspection result of the remotely monitored object D, which has undergone a tour inspection together with the inspection object R, to the tour inspection management server 2. It saves in inspection data/log information DB14. Further, the information on the remotely monitored article D may be transmitted to the remotely monitored remote monitoring management server 4 (monitoring device).

The aggregated data output unit 10F outputs the aggregated data collected by patrol inspection of the inspection object R (remotely monitored object D) using the inspection electronic device 6 and recorded in the inspection data/log information DB 14 to the inspection electronic device. Output to the device 6, the remote monitoring management server 4, and the like.

The schedule selection unit 10G transmits a list (inspection candidate date list) including a plurality of corrected inspection schedules generated by the inspection plan correction unit 10D to, for example, the inspection electronic device 6 and displays it, and selects from the plurality of corrected inspection schedules. A process is executed for the inspector to select one of them. The schedule selection unit 10G causes the inspection electronic device 6 to transmit an inspection work form used for the patrol inspection according to the inspection schedule specified from the list.

The facility information/inspection equipment information DB 12 is a database in which information on facilities, equipment, equipment, and articles targeted for patrol inspection is recorded. The information on the inspection object R such as facilities, equipment, and articles includes installation position information. Further, in the facility information/inspection equipment information DB 12, information on the remotely monitored article D is also recorded when the remotely monitored article D is to be subject to patrol inspection.

FIG. 3 is a diagram conceptually showing the facility information/inspection equipment information DB 12 in this embodiment. As shown in FIG. 3, in the facility information/inspection equipment information DB 12, in addition to information 12A regarding facilities/equipment targeted for patrol inspection (inspection target goods R), remote monitoring facilities/equipment related to remotely monitored goods D are stored. Information 12B is recorded. The remote monitoring facility/equipment information 12B is acquired from the remote monitoring management server 4 based on the measurement results collected by the measurement result collection unit 10C, and only the remote monitoring target articles D subject to patrol inspection. Alternatively, the same information as the facility information/inspection facility information DB 24 of the remote monitoring management server 4 may be recorded in advance.

The inspection schedule/route information DB 13 is a database in which the inspection schedule (first inspection schedule) generated by the inspection plan generation unit 10A and the corrected inspection schedule (second inspection schedule) generated by the inspection plan correction unit 10D are recorded. is.

FIG. 4 is a diagram conceptually showing the inspection schedule/route information DB 13 in this embodiment. As shown in FIG. 4, in the inspection schedule/route information DB 13, in addition to information 13A of a normal inspection schedule targeting inspection target items R, there is a corrected inspection schedule in which remote monitoring target items D are added to patrol inspection targets. Information 13B is included. In the modified inspection schedule, a plurality of candidates are generated and recorded according to the remote monitoring target article D added as the target of the patrol inspection.

The inspection data/log information DB 14 records the inspection results of the inspection object R (and the remotely monitored object D) by patrol inspection using the inspection electronic device 6 . In the inspection data/log information DB 14, in addition to inspection data received from the inspection electronic device 6, past inspection results (log information) are aggregated and recorded.

FIG. 5 is a diagram conceptually showing the inspection data/log information DB 14 in this embodiment. As shown in FIG. 5, the inspection data/log information DB 14 includes information 14A on facilities/equipment (items R to be inspected) and information 14B on remote monitoring facilities/equipment related to items D to be remotely monitored. The remote monitoring facility/equipment information 14B includes not only inspection result data obtained by patrol inspection using the inspection electronic device 6, but also remote monitoring data collected from the remote monitoring management server 4 or the like collected by the measurement result collection unit 10C. Measurement results for the monitored article D are included.

The communication unit 16 controls communication with the remote monitoring management server 4, the inspection electronic equipment 6, the sensors 20, and the like. The communication unit 16 transmits and receives data by wired/wireless communication through a network such as a LAN (Local Area Network), the Internet, or a public line network. If the mobile sensor 19 has a wireless communication section, it may similarly communicate directly with the communication section 16 through the network.

Next, the remote monitoring management server 4 has a control unit 22, a facility information/inspection equipment information database (DB) 24, an inspection data/log information database (DB) 26, and a communication unit 28, as shown in FIG.

The control unit 22 has the functions of a monitoring information collection unit 22A, a situation determination unit 22B, and a measurement result transmission unit 22C, which are realized by executing an inspection management program for remote monitoring by a processor.

The monitoring information collecting unit 22A detects a plurality of remotely monitored items D (D1, . . . , Dn) including equipment, equipment, and articles in the facility through the sensors 20 (20-1, . . . , 20-n). is remotely monitored, monitoring information (measurement data, etc.) related to the remotely monitored article D is collected, and recorded in the facility information/inspection equipment information DB 24 .

The status determination unit 22B determines whether the remotely monitored article D is in a predetermined state requiring patrol inspection based on the monitoring information regarding the remotely monitored article D collected by the monitoring information collecting unit 22A. Execute the process.

For example, the situation determination unit 22B can determine whether or not the measurement result (measurement data) exceeds a preset inspection threshold, and can determine that a patrol inspection is necessary when the threshold is exceeded. . In addition, when the monitoring information is an image (still image, moving image) collected by sensors 20 such as an image sensor (camera), the situation is determined based on the image of the article D to be remotely monitored. , For example, the status of people entering and exiting facilities, rooms, and restricted areas, the number of times remote monitoring objects D are used, etc., and the status of disasters, etc. (flooding, fire, collapse, etc.) in facilities, etc. Information indicating the situation can be used as a measurement result by making a determination using an image recognition processing technique.

The measurement result transmission unit 22C transmits the monitoring information (measurement data, etc.) regarding the remotely monitored article D collected by the monitoring information collection unit 22A, or the judgment result by the situation determination unit 22B, to the patrol inspection management server 2 as the measurement result. Send.

The facility information/inspection facility information DB 24 is a database in which information relating to facilities, equipment, equipment, and articles targeted for remote monitoring is recorded. The information on the remotely monitored article D such as equipment, equipment, and article includes installation position information.

The inspection data/log information DB 26 records the inspection result (inspection data/log information) by remote monitoring of the article D to be remotely monitored by remote monitoring.

The communication unit 28 controls communication with the patrol inspection management server 2, the sensors 20, and the like. The communication unit 28 transmits and receives data by wired/wireless communication through a network such as a LAN (Local Area Network), the Internet, or a public line network. Note that the communication unit 28 may communicate with the inspection electronic device 6 without going through the patrol inspection management server 2 to directly transmit and receive data to and from the inspection electronic device 6 .

The sensors 20 (20-1, . . . , 20-n) may be monitoring cameras (image sensors), sensors that detect temperature, humidity, vibration, and illuminance. As for the sensors 20, a type of sensor corresponding to the equipment to be remotely monitored is used. Moreover, the sensors 20 may have a function of not only detecting the measurement data but also performing determination processing on the measurement data. In this case, for example, the sensors 20 determine whether or not the measured data exceeds a preset inspection threshold, and if the threshold is exceeded, the remote monitoring management server 4 or the patrol inspection management server 2 together with information on the relevant remotely monitored article D.

Next, the inspection electronic equipment 6 has a control section 32, a patrol inspection database (DB) 34, an operation section 36, and a communication section 38, as shown in FIG.

The control unit 32 includes an inspection plan reception unit 32A, an inspection plan display unit 32B, an inspection result input unit 32C, an inspection result transmission unit 32D, and an aggregate data display, which are realized by executing an inspection management program for patrol inspection by a processor. It has the function of the part 32E.

The inspection plan receiving unit 32A acquires information (inspection plan) related to the patrol inspection schedule and the patrol route from the patrol inspection management server 2, generates inspection work form data for showing the inspection plan to the inspector, and performs the patrol inspection. Record in database DB34.

The inspection plan display unit 32B displays an inspection work form on the screen of the operation unit 36 (tablet) based on the inspection work form data generated by the inspection plan reception unit 32A.

The inspection result input unit 32C inputs the inspection result for the inspection object R (remotely monitored object D) according to the input operation by the inspector on the inspection work form displayed on the screen of the operation unit 36 (tablet). , is recorded in the inspection work form data DB 34 as inspection data. Also, the inspection result input unit 32C can input measurement data from the mobile sensor 19 connected to a connection terminal with an external device. Further, the inspection result input unit 32C performs image recognition processing on the image of the meter of the inspection object R (remotely monitored object D) photographed by an imaging device (not shown), and the meter indicates Numerical values can be detected and input as inspection data.

The inspection result transmission unit 32D transmits inspection data and the like input by the inspection result input unit 32C to the patrol inspection management server 2 .

The aggregated data display unit 32E acquires the inspection data for the inspection object R or the aggregated data of the log information from the patrol inspection management server 2, and causes the operation unit 36 to display the aggregated result (see FIG. 7).

The operation unit 36 is configured by, for example, a tablet, and executes display of various information including inspection work forms to be provided to the inspector, and input of various data including inspection data according to input operations by the inspector.

The communication unit 38 controls communication with the patrol inspection management server 2 and the like. The communication unit 38 transmits and receives data by wired/wireless communication through a network such as a LAN (Local Area Network), the Internet, or a public line network. Note that the communication unit 38 may communicate with the sensors 20 without going through the patrol inspection management server 2 to directly transmit and receive data to and from the sensors 20 .

Next, operation of inspection results collected by patrol inspection using the inspection electronic device 6 will be described.

FIG. 6 is a diagram for explaining the operation flow of inspection results using the inspection electronic device 6. As shown in FIG.

An inspection electronic device 6 is used to perform a facility inspection on an inspection target article R, and the inspection electronic device 6 visualizes the inspection results in a form format (S1). The inspection data input to the inspection electronic device 6 is collected by the patrol inspection management server 2 and accumulated in the inspection data/log information DB 14 (S2). In the patrol inspection management server 2, in the facility information/inspection equipment information DB 12, in addition to the facilities targeted for patrol inspection, information on inspection target items R such as equipment, equipment, and articles is recorded (ledger management) ( S3), it is managed in cooperation with the data recorded in the inspection data/log information DB 14 .

The inspection data recorded in the inspection data/log information DB 14 is utilized (S4). As a method of utilization, for example, it is visualized/graphed so that changes over time in the state of the inspection target article R can be confirmed.

Collecting, accumulating, and visualizing this series of data contributes to the improvement of equipment maintenance work (S5). Specifically, as inspection work improvement, inspection items can be improved, inspector training and support, and inspector assignment can be improved. As equipment maintenance work improvement, equipment maintenance that reflects the actual situation such as parts replacement, equipment renewal/repair plan formulation, preventive maintenance, and inspection level change becomes possible. As a result, it is possible to contribute to the improvement of the facility (S6). Specifically, it is possible to improve facility operating rates, reduce sudden failures, and reduce maintenance costs.

FIG. 7 is a diagram showing a screen display example visualized/graphed in the inspection electronic device 6 as utilization of inspection data. The inspection electronic device 6 is, for example, a smart phone or a tablet PC.

FIG. 7 is an example of a screen display in which inspection data of a compressor, which is equipment, is visualized as an inspection target article R, for example, and graphically displays changes in the inspection data over time.

The inspection electronic device 6 selects, for example, the location of the facility (factory A, building No. 1) in the item 40 of "facility refinement" displayed on the screen, and the facility equipment (compressor) to be displayed for the aggregated data is By being selected by the inspector's operation, the total data display unit 32E acquires the total data of the facility from the patrol inspection management server 2 and displays the graph.

In addition, when the inspection electronic device 6 is used to perform a patrol inspection including the remotely monitored article D, inspection data regarding the remotely monitored article D is recorded in the patrol inspection management server 2 . In this case, in item 40 of "facility refinement", remote monitoring object D can be selected as a facility equipment to be displayed in aggregated data. As a result, aggregated data of patrol inspection of the article D to be remotely monitored may be displayed.

FIG. 8 is a diagram showing an image of patrol inspection according to an inspection schedule using the inspection electronic device 6 in this embodiment.

In normal patrol inspection work, according to an inspection schedule created for patrol inspection of a plurality of inspection target items R1, R2, etc., the inspection target items R1 are inspected using the inspection electronic device 6 according to the inspection route SR0 indicated by the inspection schedule. , R2 . . .

The inspector goes to the location of the item R to be inspected, inputs the inspection result using the inspection work form for the inspection electronic device 6, inputs the inspection result by photographing the meter of the item R to be inspected, and inspects the inspection result. input to the electronic device 6 for When the inspector completes inputting the inspection results for all the articles R to be inspected indicated by the inspection schedule, the inspector ends the inspection work.

In the patrol inspection management server 2 in the present embodiment, when it is determined that a patrol inspection is necessary based on the measurement result of the remotely monitored object D, the relevant remotely monitored object D is added as a patrol inspection target. An inspection schedule (inspection route) is generated and notified to the inspection electronic device 6 .

In accordance with the corrected inspection schedule notified from the patrol inspection management server 2, the inspector follows the corrected inspection route SR1 or the corrected inspection route SR2 indicated by the corrected inspection schedule using the inspection electronic device 6 to inspect the items R1, R2, . Further, patrol inspections are carried out for the remotely monitored article DY or the remotely monitored article DZ.

For example, when the remote monitoring target item DY is added as a patrol inspection target, by patrolling the remote monitoring target item DY between the inspection target items R2 and R3 based on the position information of the remote monitoring target item DY, A corrected inspection route SR1 is created by specifying the shortest inspection route total length (= patrol length).

Similarly, when the remotely monitored article DZ is added as a patrol inspection target, the remotely monitored article DY is patrolled between the inspected articles R3 and R4 based on the position information of the remotely monitored article DZ. By specifying that the total length of the inspection route should be the shortest, a corrected inspection route SR2 is created.

The inspector performs the inspection according to the modified inspection schedule including the modified inspection route SR1 or the modified inspection schedule including the modified inspection route SR2, without significantly increasing the total length of the inspection route from the original inspection route SR0. , the patrol inspection including the remotely monitored article D (DY, DZ) can be efficiently completed.

The article D to be remotely monitored is remotely monitored by sensors 20 for remote monitoring. If it is determined that the possibility of an abnormality has increased because the monitoring result exceeds a predetermined threshold, for example, the operating time exceeds a predetermined threshold, an inspector will conduct an inspection to confirm the situation. be able to.

In addition, the inspector can temporarily install the mobile sensor 19 on the remotely monitored article D to observe the status of the remotely monitored article D, if necessary. For example, when an inspector touches an article D to be remotely monitored, if there is vibration or noise that is different from normal during operation, the mobile sensor 19 having the function of a vibration sensor is installed, and the mobile sensor 19 records it. Based on the obtained vibration data, the vibration state of the equipment can be analyzed later, and it can be determined whether or not to add the remotely monitored article D to the subsequent patrol inspection. As a result, the condition of equipment can be investigated in detail, and maintenance and operation can be prevented from being hindered.

In this way, even if detailed condition investigation cannot be performed by the remote monitoring sensors 20, there is no need to prepare a separate inspection plan for the remotely monitored article D being remotely monitored from the beginning. By the above-described subsequent work, the inspector can grasp the situation, and as a result, maintenance and operation of the equipment including preventive inspection can be carried out smoothly. Depending on the facilities and equipment, inspections may require official inspection qualifications, but daily patrols and inspections are possible. If a more detailed inspection is required as a result of the patrol and inspection, the company to which the inspector with the relevant qualification belongs should be notified.

Next, the operation of the inspection system according to this embodiment will be described.

FIG. 9 is a flowchart for explaining the operation of the patrol inspection management server 2 in this embodiment.

The measurement result collection unit 10C of the patrol inspection management server 2 collects information about the measurement results of the remotely monitored articles D remotely managed by the patrol inspection management server 2 (step A8). The measurement result collection unit 10C stores the measurement result of the article D to be remotely monitored in the inspection data/log information DB 14 .

For example, the measurement result collection unit 10C can collect the measurement results of the remotely monitored article D from the remote monitoring management server 4, the inspection electronic device 6, or the sensors 20. FIG.

The remote monitoring management server 4 remotely monitors a plurality of remotely monitored articles D through the sensors 20, collects monitoring information by the monitoring information collection unit 22A, and records it in the patrol inspection management server 26. .

The status determination unit 22B of the remote monitoring management server 4 determines whether or not the remotely monitored article D is in a predetermined state that requires patrol inspection based on the monitoring information. For example, the situation determination unit 22B determines whether or not the measurement result (measurement data) exceeds a preset inspection threshold, and determines that a patrol inspection is necessary when the threshold is exceeded. In addition, when collecting images (still images, moving images) from the sensors 20 (image sensors), the situation determination unit 22B determines a situation, such as a facility It is possible to determine the status of a disaster (flooding, fire, collapse, etc.) in a facility, etc. as a result of determining the status of people entering and exiting a room, a prohibited area, or the number of times an article D to be remotely monitored is used. can.

22 C of measurement result transmission parts transmit the determination result etc. by the situation determination part 22B to the patrol inspection management server 2 as a measurement result. Alternatively, the measurement result may be passed in response to an inquiry from the patrol inspection management server 2 .

Further, the measurement result transmission unit 22C may transmit the monitoring information (measurement data, etc.) related to the remotely monitored article D collected by the monitoring information collection unit 22A to the patrol inspection management server 2 as it is. In this case, the inspection plan correction unit 10D of the patrol inspection management server 2 determines whether or not the measurement result (measurement data) exceeds a preset inspection threshold, and the patrol inspection of the remotely monitored article D is performed. is required or not.

In this way, the patrol inspection management server 2 acquires the measurement result of the remotely monitored article D through inter-server communication with the remote monitoring management server 4, and can use it to correct the inspection schedule.

In addition, the measurement result collection unit 10C can collect measurement results (measurement data) detected by the sensors 20 or measurement results (measurement data) collected from the mobile sensor 19 in the inspection electronic device 6.

Based on the measurement results collected by the measurement result collection unit 10C, the inspection plan correction unit 10D determines that the remotely monitored article D is in a predetermined state that requires patrol inspection (step A10). For example, the inspection plan correction unit 10D determines whether or not the measurement result (measurement data) collected by the measurement result collection unit 10C exceeds a preset inspection threshold.

For example, the inspection plan correction unit 10D determines the usage status including the number of times of use and the total usage time of the remotely monitored item D such as equipment, the elapsed days or elapsed time from the previous inspection date, and the images collected by the sensors 20 Then, it is determined whether or not the inspection threshold is exceeded based on the sensor detection value, inspection data, and device log information. In this case, it is possible to determine that the threshold value is exceeded even when there is equipment corresponding to the regular patrol for which a predetermined period of time has passed since the previous patrol inspection.

Here, if there is no remotely monitored article D exceeding the inspection threshold (step A10, NO), the process returns to step A8, and after a predetermined time has elapsed, the process of step A8 is executed again.

On the other hand, if there is an article D to be remotely monitored that exceeds the inspection threshold (step A10, YES), the measurement result collection unit 10C collects the latest information related to the article D to be remotely monitored determined to exceed the inspection threshold. (Step A11). That is, the measurement result collection unit 10C collects the latest data from the patrol inspection management server 2, the remote monitoring management server 4, the sensors 20, or the electronic equipment 6 for inspection.

Next, the inspection plan correction unit 10D determines that the inspection threshold is exceeded based on the inspection schedule including the current inspection route recorded in the inspection schedule/route information DB 13. Generate a modified inspection schedule including a modified inspection route with D added. The inspection plan correction unit 10D creates a plurality of candidates for the corrected inspection schedule including the corrected inspection route based on different conditions.

The current inspection route is not one, but there are a plurality of inspection routes with different inspection target articles R to be inspected around, and the inspection schedules for the respective inspection routes have different inspection dates. The inspection plan correction unit 10D can add the inspection plan correction unit 10D to the patrol inspection according to the installation position of the inspection plan correction unit 10D to be added to the patrol inspection, the degree of urgency based on the state indicated by the measurement result, and the like. Select an appropriate inspection schedule (inspection route) to be modified and create a modified inspection schedule. For example, it is possible to select an inspection schedule based on an inspection route that passes close to the installation position of the inspection plan correction unit 10D, or an inspection schedule with inspection dates as close as possible.

The inspection plan correction unit 10D generates an inspection candidate date list including the current inspection route and inspection date, and a plurality of candidate corrected inspection routes, and displays it on the operation unit 18 (or the inspection electronic device 6), for example ( Step A12).

FIG. 10 is a diagram showing an example of an inspection date candidate list 36A in this embodiment.

As shown in FIG. 10, as an inspection schedule, in addition to the original inspection route SR0, a modified inspection route A (SR1) and a modified inspection route B (SR2) are listed as modified inspection route candidates.

The conditions for creating candidates for the modified inspection schedule include (1) shortening the total inspection route length (= patrol length) as much as possible and (2) making the inspection date as close as possible. In addition, it is also possible to use a condition such that a plurality of remotely monitored articles D can be added to the patrol inspection.

For example, the corrected inspection route A, which is a candidate for the corrected inspection route, has the shortest total length of the inspection route, but the scheduled inspection date is two days later. Further, although the corrected inspection route B is several hundred meters longer than the corrected inspection route A, the scheduled inspection date can be set to the shortest one day later. By presenting a plurality of correction inspection route candidates, it is possible to select a correction inspection schedule that allows appropriate execution of patrol inspections including the remotely monitored article D.

Next, the schedule selection unit 10G determines whether to sort the inspection routes displayed in the inspection candidate date list 36A (step A13). For example, the schedule selection unit 10G is instructed to execute sorting together with the designation of the conditions of candidates for the corrected inspection schedule (for example, the total length of the inspection route and the inspection date are given priority) by the operation of the operation unit 18 by the administrator or the like. If so (step A13, YES), an inspection candidate date list 34A in which a plurality of modified inspection schedules are rearranged in order of priority according to conditions is displayed (step A14). Thereby, it is possible to improve the viewability and facilitate selection of an inspection schedule.

Here, when an operation is performed to designate any inspection route (inspection schedule) for the inspection candidate date list 34A (step A15), the schedule selection unit 10G selects the designated inspection route (inspection schedule).

The inspection plan correction unit 10D creates an inspection work form according to the designated inspection route (inspection schedule) and notifies it to the inspection electronic device 6 (step A16).

The inspection plan reception unit 32A of the inspection electronic device 6 acquires information (inspection plan form) related to the inspection schedule and route from the patrol inspection management server 2, and prepares inspection work form data for showing the inspection plan to the inspector. Generate. The inspection plan display unit 32B displays the inspection work form on the operation unit 36 (tablet) based on the inspection work form data generated by the inspection plan reception unit 32A, and notifies the inspector.

The inspector uses the electronic device for inspection 6 to perform a patrol inspection according to the inspection work form (correction inspection schedule) displayed on the screen of the electronic device for inspection 6, thereby performing a normal patrol inspection for the inspection object R At the same time, it is possible to carry out patrol inspection of the remotely monitored article D and collect inspection results.

Here, a specific example of facilities and equipment to be patrol-inspected will be described.

FIG. 11 is a diagram showing a specific example of facility equipment to be patrol-checked.

(1) Target equipment and equipment This is an example of periodic patrol inspection of building-type equipment and equipment by the building operation management side.

Since there are many objects to be inspected regularly and it is not necessary to carry out inspections every day, we divided the floors into three groups: upper floors, middle floors, and lower floors. B) On the third day, the patrol inspection of the lower floor (C) is performed, and the patrol inspection is performed in the order of A→B→C.

Rooftops and basement floors are places that are not subject to regular patrol inspections.

On the roof are distribution cubicles, solar panels, water storage facilities, and more. No remote monitoring sensors are deployed.

In the underground layer, there are infrastructure facilities such as gas, a boiler, and emergency equipment, and a plurality of monitoring cameras, which are sensors for remote monitoring, are installed. The analog meter attached to the equipment is projected, and it is routinely checked in the monitoring room whether the meter value is within the normal range. It also monitors the entry and exit of people to the basement floor.

(2) Occurrence event The remote monitoring sensor (sensors 20) detected that the amount of change in the differential image from the previous day exceeded a threshold. The cause was that the floor of the basement floor, which is usually dry, was wet with water and was shiny. Due to the heavy rain the other day, it was assumed that the rain had entered the basement floor. Facilities and equipment installed near wet floors include boilers. It is necessary to check the condition of the equipment, such as whether the area around the boiler is wet. There are blind spots in remote monitoring, and it is desirable for inspection personnel to go and check directly.

The remote monitoring management server 4 determines that confirmation of the facility status is required, and transmits information related to the facility requiring confirmation to the patrol inspection management server 2 .

(3) Change in patrol inspection route (inspection date) The most recent periodic patrol inspection is scheduled for the upper floors on Tuesday, the 10th. In order to add places on the route that are not subject to regular patrol inspection to patrol targets, it is desirable that the amount of route change is small.

Currently, the schedule is "upper floor inspection (10th), middle floor inspection (11th), lower floor inspection (12th)". If we prioritize the route, we have to wait until the 12th (Wednesday) to inspect the underground layer.

Early inspection is desirable because it is necessary to know whether it is wet or not. By changing the inspection schedule, it was suggested that it could be handled, and it was rescheduled. In other words, the schedule is changed so that the inspection on the last 10 days is set to the lower floor, and the visual inspection of the target location in the underground layer is additionally performed.

(4) Change of patrol date and route Multiple possible inspection schedule candidates are displayed, and the recommended inspection schedule presented as the most suitable among them is "lower floor inspection (10 days), intermediate floor inspection (11 days) , Upper floor inspection (12th)”, and the inspection schedule will be made in this order thereafter.

The manager judged the recommended schedule to be an appropriate modified inspection schedule, and gave the OK.

(5) Reflection in the inspection work form In the inspection work form on the 10th, (1) replacement to "Items for periodic inspection of lower floors" and (2) "Underground layer: (1) Visual inspection of boiler equipment , (2) Photographing to show how wet the floor around the boiler is” was temporarily added.

As rescheduling information, the server information was updated and the inspectors were notified.

In this way, in the system of the present embodiment, the patrol inspection route (inspection date) is changed according to the situation of the place (facility) that is not subject to the regular patrol inspection, and the appropriate patrol inspection is performed by the inspector. can be implemented.

Next, a specific example of an inspection work form (equipment inspection table) displayed on the inspection electronic device 6 will be described.

FIG. 12 is a diagram showing an example of an inspection work form corresponding to an uncorrected inspection schedule displayed on the inspection electronic device 6 in this embodiment.

The inspection work form shown in FIG. 12 is a form for equipment inspection work, and is an inspection work form for conducting patrol inspections of electrical equipment, air conditioning equipment, plumbing and sanitary equipment, water supply equipment, and electrical equipment.

FIG. 13 is a diagram showing an example of an inspection work form corresponding to the corrected inspection schedule after correction displayed on the inspection electronic device 6 in this embodiment.

In the inspection work form shown in FIG. 13, an inspection item X1 related to gas equipment is added to the inspection work form shown in FIG. Gas equipment is not subject to patrol inspections, but for example, it was determined from the measurement results that there had been a recent water leak due to heavy rain. has been added to the list of patrol inspection targets.

In FIG. 13, inspection data for gas equipment can be collected by inputting inspection result data for inspection item X1 for gas equipment.

In addition to inputting inspection data into the inspection work form, description contents (items) in which data can be input may be added so as to meet the requirements of the report.

As for the types of reports, not only reports distributed within the relevant private sector, but also reports to the competent supervisory agency can be considered. Having a format for such a report also facilitates its submission along with the round inspection record.

Of the format of the report displayed on the inspection electronic device 6, the items to be entered in the accident report include, for example, the following items.

If it is a preliminary report, include (1) date and time of occurrence, (2) electric facility where the accident occurred, (3) cause and summary, (4) emergency measures and recovery measures, and (5) scheduled date and time of recovery. .
The detailed report includes (1) an analysis of the cause of the accident, (2) the circumstances of the accident, and (3) measures to prevent recurrence.

In this way, by adapting the inspection electronic device 6 for inspection and its patrol inspection management server to the target facility, it is possible to improve the efficiency of patrol inspections and shorten the time required to create related records and reports. can. In addition, electronic notarization may be performed by providing digital date authentication by a notary public office, and a neutral third party may certify the date of issue of related records and reports in these patrol inspection management data.

FIG. 14 is a diagram showing another example of an inspection work form corresponding to the modified inspection schedule after correction displayed on the inspection electronic device 6 in this embodiment.

In the inspection work form shown in FIG. 14, inspection items X2, X3, and X4 for equipment are added to the inspection work form shown in FIG.

As additional inspection items, inspection item X2 for fire extinguishing equipment (fire extinguisher), inspection item X3 for checking the status of fences where it was determined that there was a possibility of an intruder, and personal computer (PC) used for exhibition ) is added to check item X4.

In this way, it is possible to add not only facilities and equipment in the facility but also movable items as objects of the patrol inspection, and a plurality of target items can be collectively added to the existing inspection schedule for patrol inspection. can do.

FIG. 15 is a diagram showing an example of an inspection work form of a safety patrol report displayed on the inspection electronic device 6 in this embodiment.

The displayed contents include, for example, 1. management system table;2. management plan;3. 4. general management; 5. daily management; There are check items for preventing accidents such as falls.

While confirming the inspection work form of the safety patrol report displayed on the screen of the electronic equipment 6 for inspection, it is possible to inspect the inside of the facility and enter the inspection results.

The safety patrol report has an approval column in the upper right column. The inspection electronic device 6 is linked by communicating with the electronic circulation system, so that when the inspection is completed, approval circulation by electronic approval can be started from the inspection place.

In the inspection work form shown in FIG. 15, an inspection item X5 similar to the inspection item X1 regarding the gas equipment shown in FIG. 13, for example, is added to the items of the safety patrol report.

As a result, when a security guard (security) staff different from the inspector patrols the facility, it is possible to carry out patrol inspection of the facilities, which is usually performed by the inspector, instead. In this way, inspectors and security (security) personnel complement the work, or inspection personnel or security (security) personnel conduct both equipment inspections and facility patrols, which can be expected to improve patrol work efficiency. can.

In the above explanation, the inspection schedule and the correction inspection schedule are generated in the patrol inspection management server 2 , but they may be generated in the inspection electronic device 6 . In this case, the inspection electronic device 6 acquires data necessary for schedule generation from the patrol inspection management server 2 by communication, and executes the same processing as the inspection plan generation unit 10A and the inspection plan correction unit 10D described above.

While several embodiments of the invention have been described, these embodiments have been presented by way of example and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other forms, and various omissions, replacements, and modifications can be made without departing from the scope of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are included in the scope of the invention described in the claims and equivalents thereof.

Further, the processing described in the above-described embodiments can be performed by using a recording medium such as a magnetic disk (flexible disk, hard disk, etc.), an optical disk (CD-ROM, DVD, etc.), a semiconductor memory, etc. as a program that can be executed by a computer. can be written to and provided to various devices. Moreover, it is also possible to transmit it by a communication medium and provide it to various devices. The computer reads a program recorded on a recording medium or receives the program via a communication medium, and executes the above-described processes by being controlled by the program.

2... patrol inspection management server, 4... remote monitoring management server, 6... electronic equipment for inspection, 10, 22, 32... control unit, 10A... inspection plan generation unit, 10B... inspection result aggregation unit, 10C... measurement result collection unit , 10D... inspection plan correction unit, 10E... inspection result transmission unit, 10F... total data output unit, 12, 24... facility information/inspection equipment information DB, 13... inspection schedule/route information DB, 14, 26... inspection data/ Log information DB 16, 28, 38 Communication unit 18, 36 Operation unit 20 (20-1, 20-n) Sensors 19 Mobile sensor 22A Monitoring information collection unit 22B Situation determination unit 22C Measurement result transmission unit 32A Inspection plan reception unit 32B Inspection plan display unit 32C Inspection result input unit 32D Inspection result transmission unit 32E Total data display unit 34 Inspection data D.B.

Claims (12)

an inspection plan generation unit that generates a first inspection schedule including an inspection route for patrol inspection of at least one first inspection target item by an inspector in the facility;
an inspection result aggregating unit that aggregates inspection results for the first inspection target article by the patrol inspection based on the first inspection schedule;
A measurement result collection unit that collects measurement results by a measuring device for a second inspection object that is not subject to a patrol inspection according to an inspection schedule different from the first inspection object;
The first inspection includes an inspection route in which the second inspection target article is subject to patrol inspection when it is determined that the second inspection target article is in a predetermined state based on the measurement result. and an inspection plan correction unit that generates a second inspection schedule by correcting the schedule. 2. The inspection management apparatus according to claim 1, wherein said measurement result collecting unit collects the measurement results obtained by said measuring device from a monitoring device that monitors said second inspection target article using said measuring device. The measurement result collection unit collects the installation position information of the second inspection object together with the measurement result of the second inspection object,
3. The inspection management apparatus according to claim 1, wherein said inspection plan correction unit generates said second inspection schedule including an inspection route based on installation position information of said second inspection target article. The inspection plan correction unit generates a plurality of candidates for the second inspection schedule with different inspection routes,
4. The inspection management device according to claim 3, further comprising a schedule selection unit that selects one of a plurality of candidates for the second inspection schedule. 2. The inspection management apparatus according to claim 1, wherein said measurement result collection unit collects said measurement results including information indicating said operation status from a monitoring device that monitors the operation status of said second inspection target article using said measuring device. 2. The inspection management device according to claim 1, wherein said measurement result collection unit collects past measurement results. 6. The measurement result collection unit according to any one of claims 1 to 5, wherein the measurement result collection unit collects measurement results from a portable measuring device different from the measuring device, which is temporarily installed with respect to the second inspection target article. Inspection management device. The inspection result aggregating unit further aggregates the inspection results for the second inspection target article by the patrol inspection based on the second inspection schedule,
3. The inspection management device according to claim 2, further comprising an inspection result transmission unit that transmits inspection results of the second inspection target article to the monitoring device. The measuring device notifies when it is determined that the second inspection target article is in a predetermined state based on the measurement result,
2. The inspection management device according to claim 1, wherein said measurement result collection unit receives a notification from said measuring device. 3. The inspection management apparatus according to claim 1, wherein the measurement result collecting unit collects the measurement results of the second movable inspection target article by the measuring device. The measuring device is an image sensor,
3. The inspection management apparatus according to claim 1, wherein said measurement result collection unit collects information indicating a situation determined based on a photographed image of said second inspection target article as said measurement result. the computer,
an inspection plan generation unit that generates a first inspection schedule including an inspection route for patrol inspection of at least one first inspection target item by an inspector in the facility;
an inspection result aggregating unit that aggregates inspection results for the first inspection target article by the patrol inspection based on the first inspection schedule;
A measurement result collection unit that collects measurement results by a measuring device for a second inspection object that is not subject to a patrol inspection according to an inspection schedule different from the first inspection object;
The first inspection includes an inspection route in which the second inspection target article is subject to patrol inspection when it is determined that the second inspection target article is in a predetermined state based on the measurement result. An inspection management program for functioning as an inspection plan correction unit that generates a second inspection schedule by modifying the schedule.

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