WO2023181269A1

WO2023181269A1 - Inspection plan creation support system, server, and inspection plan creation program

Info

Publication number: WO2023181269A1
Application number: PCT/JP2022/014011
Authority: WO
Inventors: 慎悟渕上; 和也佐々木; 理司梅崎; 広志楢崎; 圭内海
Original assignee: 三菱電機株式会社
Priority date: 2022-03-24
Filing date: 2022-03-24
Publication date: 2023-09-28
Also published as: JPWO2023181269A1

Abstract

This inspection plan creation support system comprises: a server (3); and a facility-measuring device that is communicable with the server (3), measures an operating state of a facility, and transmits operating data that is the result of the measurement to the server (3). The server (3) comprises an aging information processing unit (333) that calculates an aging score, which is information indicating a level of deterioration of the facility, on the basis of facility specification information about the specification of the facility, facility operating information indicating the operating state of the facility and comprising the operating data, facility importance information for evaluating a facility that has sustained significant damage when a facility has failed, and facility maintenance information regarding facility maintenance of the facility. The server (3) comprises: an inspection plan processing unit (334) that generates inspection request information for requesting that inspection work be performed on the facility, on the basis of the aging score; and a communication unit that communicates with an external device of the server (3).

Description

Inspection plan creation support system, server and inspection plan creation program

The present disclosure relates to an inspection plan creation support system, a server, and an inspection plan creation program that support the creation of an inspection plan for equipment.

Maintenance work is carried out on electrical equipment to prevent power outage accidents and ensure a safe supply of electricity. Maintenance work includes inspection work of electrical equipment by workers, maintenance work of electrical equipment by workers, and planning of inspection plans for electrical equipment by electrical equipment managers.

Patent Document 1 describes a plurality of cubicle devices installed inside a cubicle-type high-voltage power receiving equipment and equipped with a plurality of units that acquire sound, odor, temperature, images, etc., and a plurality of cubicle devices that are installed inside a cubicle-type high-voltage power receiving equipment, and each information is transmitted from the cubicle device via a network. An automatic cubicle security inspection system is disclosed, which comprises: an alarm output device for acquiring the information;

Patent Document 2 describes a measuring device that is installed at a predetermined position within an area where the equipment is arranged, and that is installed in equipment that is subject to inspection of its own equipment that is located in a predetermined area around the equipment. A data collection device that collects measured values representing the condition of the equipment measured by the data collection device, and an inspection book that shows the inspection items to be performed on the equipment belonging to the data collection device after acquiring the measured values collected by the data collection device. A patrol inspection system is disclosed that includes a patrol inspection device that reflects the acquired measured values in the inspection results of the vehicle.

International Publication No. 2020/171189 JP 2018-73368 Publication

However, the cubicle automatic safety inspection system described in Patent Document 1 needs to be equipped with a wide variety of sensors in order to replace inspection using the operator's five senses, resulting in a complicated configuration and control. was there.

In addition, the patrol inspection system described in Patent Document 2 performs inspections using Time Based Maintenance (TBM), which performs periodic inspections regardless of the presence or absence of a failure, so inspections may not be performed excessively frequently. The problem was that it could not be suppressed.

This disclosure has been made in view of the above, and includes information that uses a simple configuration to determine that equipment is in a state that requires maintenance and inspection, and requests implementation of inspection work for equipment that requires inspection. The purpose of this study is to obtain an inspection plan creation support system that can generate inspection plans.

In order to solve the above-mentioned problems and achieve the purpose, the inspection plan creation support system according to the present disclosure is capable of communicating with a server, measures the operating status of equipment, and transmits operating data that is the measurement result. and an equipment measuring device that transmits data to the server. The server has equipment specification information that is information about equipment specifications, equipment operation information that is information that shows the operating status of equipment and is made up of operation data, and information that evaluates equipment that will suffer major damage in the event of equipment failure. The apparatus includes an aging information processing unit that calculates an aging score, which is information indicating the level of deterioration of the equipment, based on equipment importance information and equipment maintenance information, which is information regarding equipment maintenance of the equipment. The server includes an inspection plan processing unit that generates inspection request information requesting implementation of equipment inspection work based on the aging score, and a communication unit that communicates with devices external to the server.

According to the inspection plan creation support system according to the present disclosure, with a simple configuration, it is determined that equipment is in a state that requires maintenance and inspection, and information is generated that requests implementation of inspection work for equipment that requires inspection. It has the effect that it is possible.

A diagram showing an example of the configuration of an inspection plan creation support system according to Embodiment 1. A diagram showing an example of the configuration of an inspection information terminal included in the inspection plan creation support system according to Embodiment 1. A diagram showing an example of a configuration of a communication device of an equipment measuring device included in the inspection plan creation support system according to the first embodiment. A diagram showing an example of a configuration of a temperature measuring device, a humidity measuring device, and an electric measuring device of the equipment measuring device included in the inspection plan creation support system according to the first embodiment. A diagram showing an example of the configuration of a server included in the inspection plan creation support system according to the first embodiment. A diagram showing an example of equipment specification information stored in the equipment specification information storage unit of the server included in the inspection plan creation support system according to the first embodiment. A diagram showing an example of equipment operation information stored in the equipment operation information storage unit of the server included in the inspection plan creation support system according to the first embodiment. A diagram showing an example of an equipment importance score table stored in an equipment importance information storage unit of a server included in the inspection plan creation support system according to the first embodiment. A diagram showing an example of a correction magnification table by equipment importance stored in the equipment importance information storage unit of the server included in the inspection plan creation support system according to the first embodiment. A diagram showing an example of an aging information table stored in an aging score information storage unit of a server included in the inspection plan creation support system according to the first embodiment. A diagram showing an example of an aging score addition table stored in an aging score information storage unit of a server included in the inspection plan creation support system according to the first embodiment. A diagram showing an example of an aging score correction table stored in an aging score information storage unit of a server included in the inspection plan creation support system according to the first embodiment. A diagram showing an example of an evaluation point table stored in the aging score information storage unit of the server included in the inspection plan creation support system according to the first embodiment. A diagram showing an example of a correction coefficient table stored in the aging score information storage unit of the server included in the inspection plan creation support system according to the first embodiment. Flowchart showing an example of data processing in the inspection information terminal included in the inspection plan creation support system according to the first embodiment Flowchart showing an example of operation data response processing of a communication device included in the inspection plan creation support system according to the first embodiment Flowchart showing an example of aging score addition processing of a server included in the inspection plan creation support system according to the first embodiment Flowchart showing an example of server aging score correction processing included in the inspection plan creation support system according to the first embodiment A diagram showing the flow of information related to processing in the inspection plan creation support system according to Embodiment 1. A diagram showing an example of the configuration of an inspection plan creation support system according to Embodiment 2. A diagram showing an example of the configuration of an inspection information terminal included in the inspection plan creation support system according to Embodiment 2. A diagram showing an example of inspection target information stored in the inspection target information storage unit of the inspection information terminal included in the inspection plan creation support system according to the second embodiment. Flowchart showing an example of maintenance inspection information processing of the inspection plan creation support system according to the second embodiment A diagram showing an example of a hardware configuration of an inspection information terminal according to

Embodiment

1 or 2. A diagram showing an example of a hardware configuration of a communication device and a server according to

Embodiment

1 or 2.

Below, an inspection plan creation support system, a server, and an inspection plan creation program according to an embodiment will be explained in detail based on the drawings.

Embodiment 1.
FIG. 1 is a diagram showing an example of the configuration of an inspection plan creation support system 100 according to the first embodiment. The inspection plan creation support system 100 includes an inspection information terminal 1, which is a terminal for displaying or inputting information regarding inspection plans and records of inspection results performed by inspection workers who are in charge of maintenance and inspection work for equipment; The equipment includes an equipment measuring device 2, which is a device installed around the installed location to obtain information on the operating status of the equipment, and a server 3 of a service provider. The inspection plan creation support system 100 also includes an inspection information terminal 1 used by the user. The server 3 communicates with each of the inspection information terminal 1 and the equipment measuring device 2 via the network 4.

In the inspection plan creation support system 100, the server 3 determines that the equipment to be inspected, which is the equipment to be inspected during equipment maintenance, is in a state that requires maintenance and inspection, and executes the inspection work for the equipment that requires inspection. By generating inspection request information indicating a request and transmitting the inspection request information to the inspection information terminal 1, it supports planning of an inspection plan for the equipment.

The inspection information terminal 1 and the equipment measuring device 2 are used in an environment where communication via the network 4 is possible. An inspection worker accesses a server 3 established by a service provider via a network 4 from an inspection information terminal 1.

FIG. 2 is a diagram showing an example of the configuration of the inspection information terminal 1 included in the inspection plan creation support system 100 according to the first embodiment. The inspection information terminal 1 is, for example, a personal computer such as a desktop personal computer. Further, as the inspection information terminal 1, a general-purpose mobile terminal such as a smartphone, a tablet terminal, or a notebook can be used. The inspection information terminal 1 includes a maintenance and inspection information processing program that inputs, stores, and transmits maintenance and inspection information for equipment in order to realize a support function for drawing up an inspection plan for equipment in the inspection plan creation support system 100. Installed.

The inspection information terminal 1 executes processing related to inputting, storing, and transmitting equipment maintenance/inspection information to the server 3 in order to support planning of an inspection plan for the equipment.

The inspection information terminal 1 includes a terminal communication section 11, an equipment maintenance information storage section 12, an equipment maintenance information processing section 13, a display section 14, an input section 15, a terminal storage section 16, a terminal control section 17, Equipped with Each component of the inspection information terminal 1 described above is capable of transmitting and receiving information to and from each other.

The terminal communication unit 11 communicates with devices external to the inspection information terminal 1. The terminal communication unit 11 is connected to the network 4 by wired communication or wireless communication. The terminal communication unit 11 transmits and receives data to and from the server 3 via the network 4.

The equipment maintenance information storage unit 12 stores equipment maintenance information that is information related to equipment maintenance of equipment. Equipment maintenance includes not only equipment inspection but also equipment maintenance such as replacing equipment parts and updating the equipment itself.

Equipment maintenance information is information related to equipment maintenance of equipment, and includes inspection record information and maintenance record information.

The inspection record information is information about the inspection of the equipment to be inspected, which is the equipment to be inspected for maintenance. Inspection record information includes information on inspection points and inspection items that are predetermined for equipment that is subject to maintenance and inspection for equipment management, and inspection results that are information on the results of inspections. The information includes the following information. The inspection record information is input and stored in an inspection table stored in the equipment maintenance information storage section 12. The inspection record information is created by the inspection worker when the inspection worker conducts the equipment inspection, and information on the inspection date and inspection results is input into the inspection information terminal 1 using the input unit 15, and the inspection record information is created by the inspection worker when the inspection worker conducts the equipment inspection. recorded in the table.

The maintenance record information is information about the maintenance of the equipment to be inspected. The maintenance record information is information including information on replacing parts of equipment or information on updating equipment. The maintenance record information is input and stored in a maintenance table stored in the equipment maintenance information storage section 12. Maintenance record information is created by an inspection worker when the inspection worker replaces a part of equipment or updates the equipment itself, and includes the date of part replacement, the content of the part replacement, and the date of update of the equipment itself. Information such as update details of the equipment itself and updates are input using the input unit 15 and recorded in the maintenance table.

The equipment maintenance information processing unit 13 processes information related to equipment maintenance of equipment, and performs processing such as inputting, storing, and transmitting equipment maintenance information. The equipment maintenance information processing unit 13 acquires the inspection record information or maintenance record information stored in the equipment maintenance information storage unit 12 and causes the display unit 14 to display the acquired inspection record information or maintenance record information. Additionally, the equipment maintenance information processing unit 13 transmits the inspection record information or maintenance record information acquired from the equipment maintenance information storage unit 12 to the server 3 via the terminal communication unit 11. Specifically, the equipment maintenance information processing unit 13 acquires inspection record information or maintenance record information from the equipment maintenance information storage unit 12, and creates transmission data of the acquired inspection record information or maintenance record information. The equipment maintenance information processing unit 13 transmits the created transmission data to the server 3 via the terminal communication unit 11.

Additionally, the equipment maintenance information processing unit 13 acquires inspection plan information from the server 3 and stores the inspection plan information in the equipment maintenance information storage unit 12.

The inspection plan information includes information on the equipment to be inspected, scheduled inspection date information that is information on the next scheduled inspection date of the equipment to be inspected, and inspection type information that is information on the type of inspection of the equipment to be inspected. This is information on the inspection plan for the equipment to be inspected. The information on the equipment to be inspected includes equipment installation position information, which is information on the position where the equipment is installed. The inspection type information includes information on the type of inspection carried out in a daily patrol inspection, which is an inspection carried out on a daily basis, and information on the type of inspection carried out in a periodic inspection carried out periodically.

The display unit 14 is realized by a display device such as a liquid crystal display or an organic electroluminescence (EL) display. The display unit 14 displays inspection record information or maintenance record information stored in the equipment maintenance information storage unit 12.

The input unit 15 is realized by an input device such as a keyboard, a mouse, or a touch panel. Inspection record information or maintenance record information is input to the input unit 15 .

The terminal storage unit 16 stores various information necessary for controlling the inspection information terminal 1.

The terminal control unit 17 controls the operation of the inspection information terminal 1 as a whole. Further, the terminal control unit 17 controls displaying various information on the display unit 14. That is, the terminal control section 17 has a function as an image processing section and a display control section.

Next, the equipment measuring device 2 will be explained. The equipment measuring device 2 acquires equipment operation data, which is data indicating the operating state of the equipment in the environment in which the equipment is used, and transmits it to the server 3 . As shown in FIG. 1, the equipment measuring device 2 includes a communication device 21, a temperature measuring device 22, a humidity measuring device 23, and an electrical measuring device 24.

The communication device 21 communicates with devices external to the equipment measurement device 2. The communication device 21 transmits operating data acquired by each of the temperature measurement device 22, humidity measurement device 23, and electrical measurement device 24 to the server 3 connected via the network 4. That is, the communication device 21 transmits operating data such as temperature data, humidity data, and electrical data to the server 3 via the network 4.

The operating data is data of measurement values obtained by measuring devices such as the temperature measuring device 22, the humidity measuring device 23, and the electrical measuring device 24, and is data indicating the operating state of the equipment.

FIG. 3 is a diagram showing an example of the configuration of the communication device 21 of the equipment measuring device 2 included in the inspection plan creation support system 100 according to the first embodiment.

The communication device 21 includes a communication device communication section 211, a communication device processing section 212, a communication device storage section 213, and a communication device control section 214. The communication device processing section 212 includes an operation data acquisition section 2121 and an operation data response processing section 2122. Each component of the communication device 21 described above is capable of transmitting and receiving information to and from each other.

The communication device communication unit 211 communicates with devices external to the communication device 21. The communication device communication unit 211 is connected to the network 4 by wired communication or wireless communication. The communication device communication unit 211 transmits and receives data to and from the server 3 via the network 4 . Further, the communication device communication unit 211 communicates with the temperature measuring device 22, the humidity measuring device 23, and the electrical measuring device 24.

The communication device processing unit 212 is responsible for acquiring operation data from the temperature measuring device 22, humidity measuring device 23, and electrical measuring device 24, which are measuring devices. Further, the communication device processing unit 212 is responsible for transmitting operation data to the server 3.

The operation data acquisition unit 2121 acquires operation data from the measurement device. That is, the operation data acquisition unit 2121 acquires the measured values of each of the temperature measurement device 22, humidity measurement device 23, and electrical measurement device 24 via the communication device communication unit 211. The operation data acquisition unit 2121 acquires measured values from the measuring device when requested to acquire operation data from the operation data response processing unit 2122. Furthermore, the operation data acquisition unit 2121 acquires measured values from the measuring device at a timing according to a predetermined schedule. The operation data acquisition unit 2121 transmits the acquired measurement value to the operation data response processing unit 2122 as operation data.

The operation data response processing unit 2122 transmits the operation data acquired from the operation data acquisition unit 2121 to the equipment measurement data processing unit 331 of the server processing unit 33 (described later) in the server 3. When the operation data response processing unit 2122 receives the operation data request information from the equipment measurement data processing unit 331, the operation data response processing unit 2122 transmits the operation data to the equipment measurement data processing unit 331 as a response to the operation data request information. Specifically, the operation data response processing section 2122 converts the operation data into a response signal to the operation data request information, and transmits the response signal to the equipment measurement data processing section 331 via the communication device communication section 211.

Here, the timing at which the operation data transmitted by the communication device 21 to the server 3 is acquired may be the timing at which a request from the server 3 is received, or may be at the timing according to a predetermined schedule. That is, the communication device 21 may transmit to the server 3 operation data acquired at the timing of receiving a request from the server 3, or past operation data acquired in advance at a timing according to a predetermined schedule. may be sent to the server 3. The communication device 21 may transmit operational data that satisfies the request of the server 3 to the server 3.

The operation data request information is request information that the equipment measurement data processing section 331 of the server processing section 33 of the server 3 requests the operation data response processing section 2122 to transmit operation data.

The communication device storage unit 213 stores various information necessary for controlling the communication device 21.

The communication device control unit 214 controls the operation of the communication device 21 as a whole.

Next, the temperature measurement device 22, humidity measurement device 23, and electrical measurement device 24, which are measurement devices, will be explained.

The temperature measurement device 22 is placed at a predetermined installation location around or inside the equipment, and acquires ambient temperature data, which is the temperature around the equipment, which is temperature data in the usage environment of the equipment. The temperature measurement device 22 measures the temperature of the air around the installation location, and acquires the measured value as temperature data in the usage environment of the equipment. The temperature measurement device 22 transmits information on the measured value to the operation data acquisition section 2121 of the communication device processing section 212 of the communication device 21 .

The humidity measuring device 23 is placed at a predetermined installation location around or inside the equipment, and acquires ambient humidity data, which is the humidity around the equipment, which is humidity data in the usage environment of the equipment. The humidity measuring device 23 measures the humidity of the air around the installation location, and acquires the measured value as humidity data in the environment in which the equipment is used. The humidity measuring device 23 transmits information on the measured value to the operation data acquisition section 2121 of the communication device processing section 212 of the communication device 21 .

The electrical measuring device 24 is placed on an electric wire inside a power panel for supplying power to the equipment, an electric wire inside a control panel of the equipment, or at a predetermined installation location inside the equipment, and is used to conduct electricity to supply power to the equipment. Obtain electrical data, which is current data. The electrical measuring device 24 measures the current value supplied to the equipment, and acquires the measured value as electrical data supplied to the equipment. The electrical measuring device 24 transmits information on the measured value to the operation data acquisition section 2121 of the communication device processing section 212 of the communication device 21 .

The temperature data acquired by the temperature measuring device 22, the humidity data acquired by the humidity measuring device 23, and the electrical data acquired by the electrical measuring device 24 are measured values of the measuring device and are operation data of the equipment. Therefore, the temperature measurement device 22, the humidity measurement device 23, and the electrical measurement device 24 can be said to be an operation data acquisition unit that acquires operation data of the equipment, which is data indicating the operating state of the equipment in the environment in which the equipment is used.

FIG. 4 is a diagram showing an example of the configuration of the temperature measuring device 22, humidity measuring device 23, and electrical measuring device 24 of the equipment measuring device 2 included in the inspection plan creation support system 100 according to the first embodiment. Although the temperature measuring device 22, the humidity measuring device 23, and the electrical measuring device 24 measure different objects, they have the same basic functional configuration. Here, the configuration of a measuring device 25 having a basic functional configuration of a temperature measuring device 22, a humidity measuring device 23, and an electrical measuring device 24 will be described. The measurement device 25 includes a measurement section 251, a measurement communication section 252, a measurement storage section 253, and a measurement control section 254.

The measuring unit 251 measures the physical quantity that the measuring device 25 targets for measurement. The measurement communication unit 252 communicates with the communication device 21. The measurement control unit 254 controls the operation of the measurement device 25. The measurement storage unit 253 stores various information used to control the measurement device 25. The measurement storage unit 253 stores measurement values measured by the measurement device 25.

The measurement control unit 254 receives operation instruction information transmitted from the operation data acquisition unit 2121 of the communication device 21 via the measurement communication unit 252, and controls the operation of the measurement device 25 based on the operation instruction information. That is, the measurement control unit 254 controls the operation and stopping of the measurement device 25 based on the operation instruction information. The measurement control unit 254 transmits information on measurement values, which is information on measurement results in the measurement unit 251, to the operation data acquisition unit 2121 via the measurement communication unit 252.

Furthermore, the measurement control unit 254 controls the operation of the measurement device 25 at a timing according to a predetermined operation schedule. That is, the measurement control unit 254 controls the operation and stopping of the measurement device 25 based on a predetermined operation schedule. The operation schedule is determined in advance and stored in the measurement control section 254 or the measurement storage section 253. The measurement section 251, the measurement communication section 252, the measurement storage section 253, and the measurement control section 254 can exchange information with each other.

FIG. 5 is a diagram showing an example of the configuration of the server 3 included in the inspection plan creation support system 100 according to the first embodiment. The server 3 is a computer system in which an inspection plan creation program is installed. The inspection plan creation program is a program for realizing the functions necessary for the inspection plan creation process in the first embodiment. The inspection plan creation process determines that the equipment to be inspected, which is the equipment subject to inspection in equipment maintenance, is in a state that requires maintenance and inspection, and makes an inspection request to request implementation of inspection work for the equipment that requires inspection. This is a process of generating information and transmitting inspection request information to the inspection information terminal 1.

In accordance with the inspection plan creation program, the server 3 determines that the equipment to be inspected, which is the equipment to be inspected during equipment maintenance, is in a state that requires maintenance and inspection, and requests implementation of inspection work for the equipment that requires inspection. By generating inspection request information and transmitting the inspection request information to the inspection information terminal 1, it is possible to support a worker or an equipment manager in drawing up an inspection plan for the equipment.

The server 3 includes a server communication section 31, a server storage section 32, a server processing section 33, and a server control section 34.

The server communication unit 31 communicates with devices external to the server 3.

The server storage unit 32 is a storage unit that stores various information necessary for controlling the inspection information terminal 1 and various information necessary for creating an inspection plan. The server storage section 32 includes an equipment specification information storage section 321, an equipment operation information storage section 322, an equipment importance information storage section 323, an equipment maintenance information storage section 324, an aging score information storage section 325, and an inspection plan information storage section. A storage unit 326 is stored therein.

The equipment specification information storage unit 321 stores equipment specification information.

The equipment specification information is information about the equipment specifications presented by the equipment manufacturer as the usage conditions of the equipment. The equipment specification information includes the standard ambient temperature that is the temperature around the equipment that is assumed to be the usage environment of the equipment, the standard ambient humidity that is the humidity around the equipment that is assumed to be the usage environment of the equipment, and the rated current value of the equipment. and equipment service life information. The service life information includes information on the service life of the equipment itself and information on the service life of consumable parts that need to be replaced or repaired before the service life of the equipment main body. Equipment specification information is input from the inspection information terminal 1 to the server 3 and stored in the equipment specification information storage section 321. Note that the equipment specification information may be input to the server 3 from a device other than the inspection information terminal 1.

The equipment operation information storage unit 322 stores operation information. The operating information includes a plurality of different types of operating data. The operation data is data obtained from the equipment measuring device 2 and indicating the operating state of the equipment. Examples of the operation data stored in the equipment operation information storage unit 322 include equipment ambient temperature data, equipment ambient humidity data, and equipment electrical data. The operating data is handled and stored as information associated with information on the time at which the data was measured.

Additionally, the equipment operation information storage unit 322 stores cumulative operation time information, which is information on the operation time accumulated from the start of operation of the equipment.

The equipment importance information storage unit 323 stores equipment importance information.

Equipment importance information is information that evaluates equipment that is likely to suffer major damage in the event of equipment failure. Equipment importance information includes multiple factors, such as equipment operating hours per month, scope of impact due to equipment stoppage in the event of equipment failure, number of days required from failure to recovery in the event of equipment failure, and equipment purchase cost. It includes item information and evaluation score information for each item. In addition, the equipment importance information is used to take into account the equipment importance corresponding to the total score of evaluation points when adding the aging score calculated by the aging information processing unit 333, which will be described later, to the equipment to be inspected. Contains correction value information.

The equipment maintenance information storage unit 324 stores maintenance and inspection information such as inspection record information and maintenance record information transmitted from the inspection information terminal 1.

The inspection record information acquired from the inspection information terminal 1 includes information on inspection items, information on inspection results for the inspection items, and information on predetermined evaluation points corresponding to the recorded information on the inspection results. , is included. In the equipment maintenance information storage unit 324, information on inspection items, information on inspection results, and information on evaluation points are recorded in association with each other.

For example, the equipment maintenance information storage unit 324 stores an inspection item such as “Is there any abnormality in appearance?” and information about the inspection results for the inspection item such as “normal,” “good,” or “abnormal.” Each type of result is recorded along with an assigned evaluation point. Here, an inspection result of "good" means that although deterioration is observed, the equipment can be operated.

Also, for example, check items such as "Pressure gauge reading" and "Pressure gauge reading is within ±3% of the initial reading" and "Pressure gauge reading is within ±3% of the initial reading." %" or "The pressure gauge's reading is outside the pass/fail judgment standard value." Information on the inspection results for the relevant inspection items is recorded along with evaluation points determined for each type of inspection result. has been done.

The maintenance record information acquired from the inspection information terminal 1 includes, for example, information on the replacement date when a mechanical seal is replaced for repair of a water supply pump, and the update date when the water supply pump itself is updated. Contains information related to equipment maintenance, such as information on equipment maintenance.

The aging score information storage unit 325 stores information on aging scores that are associated with the equipment main body and each of the replaceable parts of the equipment and serve as a guide for inspection or repair implementation. In addition, the aging score information storage unit 325 includes a table for determining the additional value of the aging score corresponding to the amount of operation of the equipment or the importance of the equipment, the results of inspections carried out on the equipment, or the accumulated value since the start of operation. Various types of information used to calculate the aging score, such as a table for determining a revised value of the aging score in accordance with the operating time, are stored.

The aging score is a numerical value that indicates the level of deterioration that increases in equipment due to the passage of time and wear due to use of the equipment.

The inspection plan information storage unit 326 stores inspection plan information.

The server processing unit 33 exchanges various information with the inspection information terminal 1 and the equipment measuring device 2, and executes the inspection plan creation process. The server processing section 33 includes an equipment measurement data processing section 331, a terminal data processing section 332, an aging information processing section 333, and an inspection plan processing section 334.

The equipment measurement data processing unit 331 sends operation data request information to the server communication unit 31 to request the operation data response processing unit 2122 of the communication device processing unit 212 in the communication device 21 of the equipment measurement device 2 to transmit operation data. Send via. The equipment measurement data processing section 331 receives the operation data information transmitted from the operation data response processing section 2122 as a response to the operation data request information, and stores the operation data information in the equipment operation information storage section 322.

The terminal data processing unit 332 acquires inspection record information and maintenance record information by receiving inspection record information and maintenance record information, which are equipment maintenance information transmitted from the inspection information terminal 1, via the server communication unit 31. do. The terminal data processing unit 332 stores the acquired inspection record information and maintenance record information in the equipment maintenance information storage unit 324 of the server storage unit 32 as equipment maintenance information. The terminal data processing unit 332 can be said to be an equipment maintenance information processing unit that acquires equipment maintenance information from a device external to the server 3 and stores it in the storage unit.

Additionally, the terminal data processing unit 332 receives inspection plan request information sent from the equipment maintenance information processing unit 13 of the inspection information terminal 1 requesting transmission of inspection plan information. In response to the inspection plan request information, the terminal data processing unit 332 transmits the inspection plan information stored in the inspection plan information storage unit 326 of the server storage unit 32 of the server 3 to the inspection information terminal via the server communication unit 31. The information is transmitted to the equipment maintenance information processing section 13 of No. 1.

Note that hereinafter, various data transmitted from the inspection information terminal 1 may be collectively referred to as terminal data.

The aging information processing unit 333 performs a process of calculating the aging score of each piece of equipment or equipment parts. The aging information processing unit 333 calculates aging scores for each replaceable part of the equipment and for each equipment body. Examples of replaceable parts include parts such as gland packing, mechanical seals, and bearings in water supply pumps.

The aging information processing unit 333 periodically performs aging score addition processing, which is a process of adding an aging score addition value to the aging score before correction, at predetermined regular intervals, such as once every 30 minutes. Execute.

The aging score additional value is an additional value that is added to the aging score before correction in order to calculate an aging score that matches the current situation of the equipment or component.

In addition, the aging information processing unit 333 adds the aging score correction coefficient to the aging score as a process of adding the inspection result to the aging score, for example, when the recorded information of the inspection result is acquired, the aging information processing unit 333 Execute as interrupt processing.

The aging score correction coefficient is a correction coefficient that corrects the aging score before correction based on operation data and inspection results in order to calculate the aging score in accordance with the current situation of the equipment or parts. The aging score correction coefficient is based on information obtained by comparing the service life information in the equipment specification information stored in the equipment specification information storage unit 321 and the equipment operating time information stored in the equipment operation information storage unit 322, and equipment maintenance It is calculated from the operation data in the inspection record information stored in the information storage section 324 and the evaluation point information included in the inspection record information stored in the equipment maintenance information storage section 324.

If information on equipment component replacement is recorded as maintenance record information in the equipment maintenance information storage unit 324, the aging score of the replaced part is reset. When the entire equipment body is updated, the aging score of the equipment is reset, and the process of adding the aging score addition value is started from the initial value of the aging score. Moreover, the aging score of the replaceable parts included in the updated equipment is also reset, and the process of adding the aging score addition value is started from the initial value of the aging score.

The inspection plan processing unit 334 considers the aging score obtained by the aging information processing unit 333 as a priority for inspection implementation, and determines that it is necessary to perform an equipment inspection especially when the aging score exceeds a predetermined threshold. judge. The inspection plan processing section 334 executes a process of changing the inspection plan recorded in the inspection plan information storage section 326 when it is determined that it is necessary to inspect the equipment. That is, when the inspection plan processing unit 334 determines that it is necessary to perform an inspection of the equipment, the inspection plan processing unit 334 selects the next and subsequent inspection schedule for the equipment to be inspected, which is included in the inspection plan recorded in the inspection plan information storage unit 326. Change the scheduled inspection implementation date information.

For example, the inspection plan processing unit 334 changes the inspection plan and performs a process of reserving the inspection of the equipment that has been determined to need inspection to be carried out at the next monthly inspection.

The server control unit 34 controls the operation of the server 3 as a whole.

FIG. 6 is a diagram showing an example of the equipment specification information 51 stored in the equipment specification information storage unit 321 of the server 3 included in the inspection plan creation support system 100 according to the first embodiment. As shown in FIG. 6, the equipment specification information 51 includes an equipment ID, which is identification information for identifying and managing equipment on an equipment basis, and equipment name and equipment information, which are identification information for an inspection worker to identify equipment. The model name, the standard ambient temperature that is the temperature around the equipment as presented by the equipment manufacturer, the standard ambient humidity that is the humidity around the equipment as presented by the equipment manufacturer, and the rated current of the equipment as presented by the equipment manufacturer. Contains terms of use such as, and information on.

In addition, the equipment specification information 51 includes component IDs and names of parts that are subject to aging score management, which are assigned separately so that parts that can be replaced as consumable parts and equipment bodies can be managed separately, and parts that are subject to aging score management are consumables. It includes information on the type of equipment used to identify whether it is a device or the equipment itself, and the durable operating time, which is the operating time presented by the equipment manufacturer as a guideline for parts replacement or equipment renewal.

FIG. 7 is a diagram showing an example of equipment operation information 52 stored in the equipment operation information storage unit 322 of the server 3 included in the inspection plan creation support system 100 according to the first embodiment. As shown in FIG. 7, the equipment operation information 52 includes the equipment ID corresponding to the equipment ID in the equipment specification information 51, the operation information acquired from the equipment measurement device 2 at the timing when the aging score addition process is executed, and the equipment This information includes cumulative operating time information for each component ID associated with the ID.

The operating information includes information on temperature, humidity, current, and measurement date and time. The cumulative operating time information is the cumulative operating time of the equipment since it started operating, and is obtained from the difference between the measurement date and time when the equipment started operating and the latest measurement date and time. The cumulative operating time information is managed by the aging information processing unit 333 for each component ID associated with the equipment ID.

For the latest measurement date and time, measurement date and time information included in the operation information acquired from the equipment measurement device 2 at the timing when the aging score addition process is executed can be used. As the measurement date and time when the equipment started operating, it is possible to use the measurement date and time information included in the operation information obtained from the equipment measurement device 2 at the timing when the operation data was first measured after the equipment started operating. .

The cumulative operating time is added for each part ID as the equipment operates. The cumulative operating time is reset when it is determined that parts have been replaced based on the maintenance record information obtained from the inspection information terminal 1.

In addition, the determination as to whether the equipment is in operation may be based on, for example, if the current value acquired as the operating information is 10% or more of the rated current value, and the equipment is in operation. The equipment may be operating based on the signal.

FIG. 8 is a diagram showing an example of the equipment importance score table 53 stored in the equipment importance information storage unit 323 of the server 3 included in the inspection plan creation support system 100 according to the first embodiment. As shown in FIG. 8, the equipment importance score table 53 stores equipment importance information, which is information for quantitatively evaluating the degree of impact when the function of the equipment stops using scores. Note that the case where the function of the equipment stops includes not only the case where the function of the equipment stops, but also the case where the function of the equipment deteriorates.

The equipment importance information includes the following items: the operational status of the equipment, the impact of equipment failure in the event of equipment failure, the number of days required for recovery in the event of equipment failure, and the equipment cost. including. Each of the above information includes a plurality of choices and a score set for each choice, which are recorded in association with each other. For each item, options with a high degree of influence are given a high score, and options with a low degree of influence are given a low score. From the equipment importance score table 53, the total equipment importance score, which is the total score of each item, is obtained. Based on the total equipment importance score, it is possible to quantitatively evaluate the degree of impact in the event that the functionality of the equipment stops for each equipment and each part.

FIG. 9 is a diagram showing an example of the correction magnification table 54 by equipment importance stored in the equipment importance information storage unit 323 of the server 3 included in the inspection plan creation support system 100 according to the first embodiment. As shown in FIG. 9, in the equipment importance level correction magnification table 54, the information on the equipment importance level correction magnification corresponds to the total equipment importance score obtained from the equipment importance information in the equipment importance score table 53. The information is stored in association with the total equipment importance score.

The correction magnification by equipment importance is information on the correction magnification that is added to the aging score addition value in order to take the importance of the equipment into consideration in the aging score addition value in calculating the aging score addition value described later in the aging score addition process. be. The correction magnification by equipment importance level is individually provided for each range of the total equipment importance score. The correction magnification by equipment importance can be changed to any value based on information input from a device external to the server 3.

FIG. 10 is a diagram showing an example of the aging information table 55 stored in the aging score information storage unit 325 of the server 3 included in the inspection plan creation support system 100 according to the first embodiment. As shown in FIG. 10, the aging information table 55 includes equipment IDs and parts IDs corresponding to the equipment IDs and parts IDs in the equipment specification information 51, the operating time of the equipment, the operating amount of the equipment, and the importance level in terms of equipment management. , and an aging score calculated in accordance with the inspection results performed on the equipment or the information on parts replacement due to repairs.

FIG. 11 is a diagram showing an example of the aging score addition table 56 stored in the aging score information storage unit 325 of the server 3 included in the inspection plan creation support system 100 according to the first embodiment. The aging score addition table 56 stores aging score addition values when performing aging score addition processing on the aging score of the component ID corresponding to the equipment ID stored in the aging information table 55 at predetermined time intervals. This is a table that stores information for calculation. That is, the aged score addition table 56 is a table that stores information for calculating the aged score addition value when performing aging score addition processing for the aged score of the equipment to be inspected or the part to be inspected.

As shown in FIG. 11, the aging score addition table 56 includes equipment IDs and component IDs corresponding to the equipment IDs and component IDs in the aging information table 55, unit addition values, operating amount corrections, importance corrections, and aging information. The score addition value and information on each item are stored.

The unit addition value is an addition value that is the basis of the aging score addition value, based on the elapsed time from the time when the previous aging score addition process was performed to the time when the current aging score addition process was performed. The unit addition value is an addition value for each component that is to be corrected by operation amount correction and importance correction. That is, in calculating the aged score additional value, the unit additional value is the aged score added value based on the elapsed time since the previous aging score addition process, and is corrected by the operation amount correction and the importance correction. This is information on the intermediate value of the aging score addition value, which is the basis before adding the score over time.

The unit additional value includes various information such as elapsed time, durable operating time, and pre-correction additional value. The elapsed time is the time that has passed since the previous aging score addition process was executed. The durable operating time is the durable operating time corresponding to the component ID stored in the equipment specification information 51. The pre-correction additional value is a value obtained from the product of the reciprocal of the durable operating time and the elapsed time. Here, the pre-correction added value is an intermediate value to be corrected by the operation amount correction and the importance correction in calculating the aged score addition value.

The operation amount correction is correction information for adding the operation amount of equipment to the aging score addition value in calculating the aging score addition value. This is information for correction. The operating amount correction includes various information such as usage conditions, operating information, item-by-item correction values, and operating amount correction values.

The usage conditions are comprised of standard ambient temperature, standard ambient humidity, and rated current, which are usage conditions corresponding to the equipment ID stored in the equipment specification information 51. In FIG. 11, information on standard ambient temperature, standard ambient humidity, and rated current is shown in this order from the top side as information on usage conditions.

The operating information is information on the operating state of the equipment corresponding to each item of the usage conditions, and is composed of information on the current temperature, humidity, and current stored in the equipment operating information 52, respectively.

The item-by-item correction value is the intermediate value of correction values when performing operation amount correction for the unit addition value. The correction value for each item is the intermediate value of the correction value corresponding to each item of the usage conditions, and each correction value is obtained from the ratio of the usage conditions and the operation information obtained from the calculation formula of "operation information / usage conditions". Consists of values.

The operating amount correction value is the average value of the correction values for each item of standard ambient temperature, standard ambient humidity, and rated current.

Importance correction is correction information for adding the importance of the equipment to the added value of the aged score in calculating the added value of the aged score. This is information for correction. The importance correction is performed based on the equipment importance total score obtained from the equipment importance information and the equipment importance correction magnification information obtained from the equipment importance correction magnification information corresponding to the equipment importance total score in the equipment importance classification correction magnification table 54. It consists of a correction value. As the equipment importance correction value, a correction magnification by equipment importance corresponding to the total score of equipment importance in the correction magnification by equipment importance table 54 extracted from the correction magnification by equipment importance table 54 is used.

The aging score addition value is an addition value obtained by integrating the pre-correction addition value, the operating amount correction value, and the equipment importance correction value.

Although FIG. 11 shows the aging score addition table 56 for parts, the aging score addition table 56 having the same configuration as FIG. 11 is also provided for the equipment body.

FIG. 12 is a diagram showing an example of the aging score correction table 57 stored in the aging score information storage unit 325 of the server 3 included in the inspection plan creation support system 100 according to the first embodiment. The aging score correction table 57 stores aging score correction coefficients when performing aging score correction processing for aging scores of component IDs corresponding to equipment IDs stored in the aging information table 55 at predetermined time intervals. This is a table that stores information for calculation. That is, the aging score correction table 57 is a table that stores information for calculating aging score correction coefficients when performing aging score correction processing for aging scores of equipment to be inspected or parts to be inspected.

As shown in FIG. 12, the aging score correction table 57 includes equipment IDs and component IDs corresponding to the equipment IDs and component IDs in the aging information table 55, correction elements, correction element items, and item-by-item correction coefficients. The secular score correction coefficient and information on each item are stored.

The correction element is information about an element that is added to the aging score correction coefficient in calculating the aging score correction coefficient. The correction elements include various types of information such as aging deterioration evaluation, qualitative inspection item results, and quantitative inspection item results.

The aging deterioration evaluation is information on elements that take into account the deterioration of equipment or equipment parts over time in the aging score correction coefficient. The aging deterioration evaluation includes items such as cumulative operating time stored in equipment operating information 52 and durable operating time stored in equipment specification information 51.

Qualitative inspection item results include information on inspection items that can be confirmed with the five senses of the inspection worker, and each of the inspection items, among inspection record information that is a record of inspection results stored in the equipment maintenance information storage unit 324. including information on inspection results.

Inspection items that are checked with the five senses of the inspection worker include, for example, abnormal sounds such as whether the water pump is making any unusual sounds, and abnormal odors such as whether there is a burning smell. This includes items with external abnormalities such as water leakage or corrosion. The inspection results include information on inspection results such as "normal", "good", or "abnormal", and information on evaluation points corresponding to each determination of the inspection results.

Inspection results are recorded as "normal" when no particular abnormality is found as a result of the inspection worker's inspection of the equipment, and when deterioration over time is observed to the extent that it does not affect the operation of the equipment. There are two types: "Good" and "Abnormal" which is recorded when the operation of the equipment is affected or when it will be immediately affected. As for evaluation points, predetermined points are assigned to each of the inspection results of "normal", "good", and "abnormal".

Quantitative inspection item results include information on inspection items confirmed using a measuring device among inspection record information that is a record of inspection results stored in the equipment maintenance information storage unit 324, and information on each of the inspection items. includes information on the measured values of.

Inspection items that are confirmed using a measuring device include, for example, the water pressure at the pump for water supply, the initial value of water pressure, which is the measured value of the water pressure at the water supply pump at the beginning of equipment operation, and the water pressure at the water supply pump. Contains the current water pressure value, which is the latest measured value of the water pressure delivered by the pump. Regarding the initial water pressure value and the current water pressure value, measured values corresponding to each item are stored in association with each other. The measured value obtained at the beginning of the operation of the equipment can be called the initial measured value. The latest measured value can be called the current measured value.

The item-by-item correction coefficient is a correction coefficient calculated for each correction element based on the information of the above item. The item-by-item correction coefficient for aging deterioration evaluation is composed of the value of the ratio between cumulative operating time and durable operating time, which is obtained from the calculation formula of "cumulative operating time/durable operating time". The item-by-item correction coefficient for the qualitative inspection item results is composed of the average value of the evaluation points for each item of the qualitative inspection item results. The item-by-item correction coefficient for the results of quantitative inspection items is the ratio of the current water pressure value to the initial water pressure value obtained from the calculation formula of "current water pressure value/initial water pressure value" and whether the value of the ratio is outside the standard range. Consists of values obtained from The reference range can be changed to any value based on information input from a device external to the server 3.

The aging score modification coefficient is the average value of the modification coefficients for each item.

FIG. 13 is a diagram showing an example of the evaluation score table 58 stored in the aging score information storage unit 325 of the server 3 included in the inspection plan creation support system 100 according to the first embodiment.

The evaluation score table 58 is a table in which information on evaluation points for obtaining evaluation points based on the qualitative inspection item results of the secular score correction table 57 is stored. As shown in FIG. 13, the evaluation score table 58 has information on inspection results and evaluation points. The evaluation points are stored in association with the inspection results of the qualitative inspection items in a form corresponding to the inspection results. In the aging score correction process, the evaluation points for the qualitative inspection item results in the aging score correction table 57 are extracted from the evaluation point table 58 based on the inspection results for the qualitative inspection item results and are stored in the aging score correction table 57. reflected.

FIG. 14 is a diagram showing an example of the correction coefficient table 59 stored in the aging score information storage unit 325 of the server 3 included in the inspection plan creation support system 100 according to the first embodiment.

The correction coefficient table 59 is a table in which information on the correction coefficients for each item regarding the quantitative inspection item results of the secular score correction table 57 is stored. As shown in FIG. 14, the correction coefficient table 59 shows cases in which the current measurement value stored in the quantitative inspection item results of the aging score correction table 57 is within a predetermined reference range, and when it is not within the reference range. Correction coefficients for each item are stored separately for each case.

If the current measurement value is within the standard range, the correction coefficient for each item corresponding to the ratio between the current measurement value and the initial measurement value obtained from the calculation formula "Current measurement value/Initial measurement value" is stored in association with the range of current measured values. Furthermore, when the measured current value is not within the reference range, a predetermined item-by-item correction coefficient is stored regardless of the magnitude relationship between the measured current value and the initial measured value. The reference range can be expressed as a normal range of measured values.

Next, data processing in the inspection information terminal 1 will be explained. FIG. 15 is a flowchart showing an example of data processing in the inspection information terminal 1 included in the inspection plan creation support system 100 according to the first embodiment.

In step S110, inspection plan information is acquired. Specifically, the equipment maintenance information processing unit 13 of the inspection information terminal 1 acquires inspection plan information including information on the equipment to be inspected and information on the type of inspection. The input unit 15 of the inspection information terminal 1 receives an information input start operation, which is an operation to instruct the start of equipment maintenance information input processing, from the inspection worker. Upon receiving the information input start operation, the input unit 15 transmits information input start operation information, which is operation information corresponding to the information input start operation, to the equipment maintenance information processing unit 13 of the inspection information terminal 1.

Upon receiving the information input start operation information transmitted from the input unit 15, the equipment maintenance information processing unit 13 sends inspection plan request information requesting transmission of inspection plan information based on the information input start operation information. It is transmitted to the server 3 via the terminal communication section 11 of the inspection information terminal 1.

When the server communication unit 31 of the server 3 receives the inspection plan request information transmitted from the terminal communication unit 11 of the inspection information terminal 1, it transmits the inspection plan request information to the terminal data processing unit 332 of the server 3. Upon receiving the inspection plan request information transmitted from the server communication section 31, the terminal data processing section 332 stores the inspection plan information storage section 326 of the server storage section 32 of the server 3 based on the inspection plan request information. The inspection plan information is sent to the inspection information terminal 1 via the server communication section 31.

Upon receiving the inspection plan information transmitted from the terminal data processing section 332 of the server 3, the terminal communication section 11 of the inspection information terminal 1 transmits the inspection plan information to the equipment maintenance information processing section 13 of the inspection information terminal 1. When the equipment maintenance information processing unit 13 receives the inspection plan information transmitted from the terminal communication unit 11, it stores the inspection plan information. Thereby, the equipment maintenance information processing unit 13 can acquire information on the equipment to be inspected and information on the inspection type included in the inspection plan information. After that, the process advances to step S120.

In step S120, information on the equipment to be inspected is displayed. Specifically, the equipment maintenance information processing unit 13 of the inspection information terminal 1 causes the display unit 14 of the inspection information terminal 1 to display information on the equipment to be inspected included in the inspection plan information. The information on equipment to be inspected includes information on a plurality of equipments or parts of equipment that are candidates for equipment inspection.

The inspection worker selects the equipment to be inspected, which is the target of equipment maintenance information input processing, from among the information on the plurality of equipments or parts of the equipment which are candidates for equipment inspection displayed on the display unit 14, using the input unit 15. Select using . After that, the process advances to step S130.

In step S130, the inspection list of the selected equipment to be inspected is displayed. Specifically, the equipment maintenance information processing unit 13 causes the display unit 14 to display a check list stored in the equipment maintenance information storage unit 12 in association with the equipment to be inspected selected by the inspection worker. The inspection worker uses the input section 15 to input information on the inspection results performed by the inspection worker, which is inspection record information to be recorded in the inspection sheet displayed on the display section 14 . That is, the inspection worker performs an operation to input information on the date of inspection and information on the inspection results into the input unit 15 of the inspection information terminal 1 as information on the inspection results performed on the equipment to be inspected. After that, the process advances to step S140.

In step S140, information on the inspection results performed by the inspection worker, which is inspection record information, is acquired. Specifically, the equipment maintenance information processing unit 13 acquires information on the inspection results performed by the inspection worker, which is inspection record information. When the equipment maintenance information processing unit 13 receives an inspection result input operation, which is an operation for inputting information on the inspection results received by the input unit 15, from an inspection worker, the equipment maintenance information processing unit 13 inputs the inspection result, which is operation information corresponding to the inspection result input operation. The input information is transmitted to the equipment maintenance information processing section 13.

By receiving the inspection result input information, the equipment maintenance information processing unit 13 can acquire information on the inspection results performed by the inspection worker, which is inspection record information. The equipment maintenance information processing unit 13 records information on the inspection results as inspection record information in an inspection sheet, and stores the information in the equipment maintenance information storage unit 12. After that, the process advances to step S150.

In step S150, information on the inspection results performed by the inspection worker, which is inspection record information, is transmitted to the server 3. Specifically, the equipment maintenance information processing unit 13 converts information on the inspection results performed by the inspection worker, which is inspection record information, into a data format that can be stored in the equipment maintenance information storage unit 324 of the server 3. The equipment maintenance information processing unit 13 transmits the converted inspection result information to the server 3 via the terminal communication unit 11.

When the server communication unit 31 of the server 3 receives the converted inspection result information, which is the inspection record information transmitted from the terminal communication unit 11 of the inspection information terminal 1, the server communication unit 31 transmits the converted inspection result information to the server 3. It is transmitted to the terminal data processing section 332. When the terminal data processing unit 332 receives the converted inspection result information transmitted from the server communication unit 31, the terminal data processing unit 332 stores the converted inspection result information in the equipment maintenance information storage unit 324.

Next, the operation data response processing in the communication device 21 will be explained. FIG. 16 is a flowchart illustrating an example of the operation data response process of the communication device 21 included in the inspection plan creation support system 100 according to the first embodiment.

In step S210, it is determined whether operational data request information requesting transmission of operational data has been received from the server 3. Specifically, whether or not the operating data response processing unit 2122 of the communication device processing unit 212 of the communication device 21 has received the operating data request information transmitted from the equipment measurement data processing unit 331 of the server processing unit 33 of the server 3. Determine.

The equipment measurement data processing unit 331 of the server 3 transmits the operation data request information to the communication device communication unit 211 of the communication device 21 via the server communication unit 31 of the server 3. Upon receiving the operational data request information transmitted from the server communication section 31, the communication device communication section 211 transmits the operational data request information to the operational data response processing section 2122. When the working data response processing unit 2122 receives the working data request information transmitted from the communication device communication unit 211, the working data response processing unit 2122 stores the working data request information.

If the operational data response processing unit 2122 stores operational data request information for which no response processing has been performed on the operational data request information, the operational data response processing unit 2122 generates operational data indicating that the operational data transmission is requested. It is determined that the request information has been received from the server 3. In addition, when the operational data response processing unit 2122 does not store operational data request information for which no response processing has been performed to the operational data request information, the operational data response processing unit 2122 sends a request to send the operational data. It is determined that the operational data request information has not been received from the server 3.

If it is determined that operational data request information requesting transmission of operational data has been received from the server 3, the answer is Yes in step S210, and the process proceeds to step S220. If it is determined that the operational data request information requesting transmission of operational data has not been received from the server 3, the answer in step S210 is No, and the series of operational data response processing ends.

In step S220, measurement values that are operating data are acquired from the temperature measurement device 22, the humidity measurement device 23, and the electrical measurement device 24. Specifically, the operating data acquisition unit 2121 of the communication device processing unit 212 of the communication device 21 collects the data from the temperature measuring device 22, humidity measuring device 23, and electrical measuring device 24 under the control of the operating data response processing unit 2122. Get the current measurement value. After that, the process advances to step S230.

In step S230, the acquired measurement value is transmitted as operating data. Specifically, the operation data response processing section 2122 transmits the operation data to the equipment measurement data processing section 331 of the server processing section 33. The operation data response processing unit 2122 acquires operation data from the operation data acquisition unit 2121, converts the acquired operation data into a response signal to operation data request information, and sends the response signal to equipment measurement via the communication device communication unit 211. It is transmitted to the data processing section 331.

Note that if the operation data requested in the operation data request information is past operation data that has been acquired in advance at a timing according to a predetermined schedule, the past operation data is sent to.

The equipment measurement data processing unit 331 of the server 3 receives the operating data transmitted from the operating data response processing unit 2122 as a response to the operating data request information, and stores the operating data in the equipment operating information storage unit 322.

Next, among the aging information processing for calculating the aging score in the server 3, aging score addition processing will be described. FIG. 17 is a flowchart showing an example of aging score addition processing of the server 3 included in the inspection plan creation support system 100 according to the first embodiment. Here, a case will be described in which the object to which the aging score addition process is performed is a component of equipment.

In step S310, a regular process of aging score addition process is started. Specifically, the aging information processing unit 333 of the server processing unit 33 of the server 3 starts regular aging score addition processing for the component corresponding to the component ID of the equipment ID registered in the aging information table 55. The regular processing of aging score addition processing is started at predetermined time intervals, that is, at predetermined cycles. Information on the time interval at which the periodic processing of the aging score addition process is started is determined in advance and stored in the aging information processing unit 333. After that, the process advances to step S320.

In step S320, the aging score corresponding to the part ID of the part to be processed in the aging information processing, that is, the aging score corresponding to the part ID of the part to be subjected to the aging score addition process is acquired. Specifically, the aging information processing unit 333 uses the aging information table 55 stored in the aging score information storage unit 325 in the server storage unit 32 of the server 3 to determine the component ID of the component for which aging score addition processing is to be performed. Obtain the corresponding aging score. After that, the process advances to step S330.

In step S330, the aging score addition table 56 corresponding to the part ID of the part to be processed in aging information processing, that is, the aging score addition table 56 corresponding to the part ID of the part to be subjected to aging score addition processing, is acquired. be done. Specifically, the aging information processing unit 333 stores the aging score addition table 56 corresponding to the part ID of the part for which aging score addition processing is to be performed, which is stored in the aging score information storage unit 325 in the server storage unit 32. get. After that, the process advances to step S340.

The aging score addition table 56 includes the equipment specification information 51 stored in the equipment specification information storage unit 321, the equipment importance score table 53 stored in the equipment importance information storage unit 323, and the correction magnification by equipment importance. The information in Table 54 is reflected in advance. When the equipment specification information 51, the equipment importance score table 53, or the equipment importance correction magnification table 54 is updated, the aging information processing unit 333 causes the updated information to be reflected in the aging score addition table 56 in advance. . The aging information processing unit 333 adds the information of the equipment specification information 51, the equipment importance score table 53, and the correction magnification table 54 by equipment importance to the corresponding aging score addition table 56 for each equipment and each part of the equipment. ,To reflect.

In step S340, the elapsed time from the time when the previous aging score addition process was performed to the time when the current aging score addition process was performed is calculated for the component that is the target of the aging score addition process. Specifically, the aging information processing unit 333 calculates the elapsed time from the time when the previous aging score addition process was performed to the time when the current aging score addition process was performed.

The aging information processing unit 333 has a clock function and stores information on the date and time when the aging score addition process is performed. The aging information processing unit 333 performs the current aging score addition process from the time of the previous aging score addition process based on the date and time information when the previous aging score addition process was performed and the current date and time information. Calculate the elapsed time until The aging information processing unit 333 reflects the calculated elapsed time information in the aging score addition table 56. After that, the process advances to step S350.

In step S350, operation data is acquired from the equipment measurement device 2 for the component to be subjected to the aging score addition process. Specifically, the aging information processing unit 333 acquires operation data from the communication device 21 of the equipment measuring device 2. The equipment measurement data processing unit 331 sends operation data request information to the server communication unit 31 to request the operation data response processing unit 2122 of the communication device processing unit 212 in the communication device 21 of the equipment measurement device 2 to transmit operation data. Send via. Thereafter, the equipment measurement data processing unit 331 receives the operation data information transmitted from the operation data response processing unit 2122 as a response to the operation data request information, and stores the operation data information in the equipment operation information storage unit 322. .

Then, the aging information processing unit 333 acquires the operation data corresponding to the component ID of the component for which the aging score addition process is to be performed, from the equipment operation information storage unit 322. The aging information processing unit 333 reflects the acquired operation data in the operation information for the operation amount correction in the aging score addition table 56. After that, the process advances to step S360.

In step S360, the aging score addition value is acquired from the aging score addition table 56. Specifically, the aging information processing unit 333 calculates the aging score addition value in the aging score addition table 56 that reflects various information about the parts for which aging score addition processing is to be performed by the above-described processing. , obtain the aging score addition value. After that, the process advances to step S370.

In step S370, the aging score addition value is added to the aging score. Specifically, the aged information processing unit 333 converts the aging score addition value for the part to be subjected to the aging score addition process acquired in step S360 into the aging score addition value acquired from the aging information table 55 in step S320. It is added to the aging score of the part to be processed.

The aging information processing unit 333 stores the new aging score for the part to be subjected to the aging score addition process, which is calculated by adding the aging score addition value to the aging score, in the aging score information storage unit 325. In addition, it is stored in the aging information table 55 for the parts to be subjected to the aging score addition process. That is, the aged score of the part to be subjected to the aged score addition process stored in the aged information table 55 is overwritten and updated with the calculated new aged score. Note that the old aging score may be left in the aging score information storage section 325 separately from the new aging score. After that, the process advances to step S380.

In step S380, it is determined whether the new aging score value is greater than or equal to a predetermined reference value for requesting implementation of inspection work. The condition ``Whether or not the value of the new aging score is greater than or equal to the predetermined standard value for requesting the implementation of inspection work'' This condition can be expressed as "whether or not a predetermined standard condition is satisfied."

Specifically, the aging information processing unit 333 determines whether the new aging score value satisfies predetermined reference conditions for requesting implementation of inspection work. The reference condition is, for example, the above-mentioned "condition that the value of the new aging score is 1 or more." The reference conditions are determined in advance and stored in the aging information processing section 333. The reference conditions can be changed to arbitrary values based on information input from a device external to the server 3.

If it is determined that the new aging score value does not satisfy the predetermined standard conditions for requesting implementation of inspection work, the result in step S380 is No, and the series of aging score addition processing ends. If it is determined that the new aging score value satisfies the predetermined standard conditions for requesting inspection work, the answer is Yes in step S380, and the process proceeds to step S390.

In step S390, the inspection information terminal 1 is notified of an inspection request for the parts for which the aging score addition process has been performed. Specifically, the inspection plan processing unit 334 notifies the inspection information terminal 1 of an inspection request for the component for which the aging score addition process has been performed.

As a method of notification of an inspection request, for example, the inspection plan processing unit 334 executes a process to change the inspection plan stored in the inspection plan information storage unit 326, so that the inspection operator can update the target equipment to be inspected next time. This will be implemented automatically. Furthermore, the inspection request notification method may include sending an email to the inspection information terminal 1 that includes a request to conduct an inspection of the target equipment, and includes a request to conduct an inspection of the target equipment. The notification pop-up information may be sent to the inspection information terminal 1, or both of these may be used. The inspection information terminal 1 causes the display unit 14 to display an email containing a request for inspection of the target equipment or a notification pop-up indicating a request for inspection of the target equipment. Thereby, the inspection information terminal 1 can notify an inspection worker or the like that the component for which the aging score addition process has been performed has progressed in deterioration and that inspection work for the component is required.

In other words, the inspection plan processing unit 334 generates inspection request information to the effect that the component to be subjected to the aging score addition process has progressed in deterioration and that inspection work for the component is requested. Then, the inspection plan processing unit 334 transmits the generated inspection request information to the inspection information terminal 1, so that the inspection information terminal 1 is notified of the inspection request for the component to be subjected to the aging score addition process. Thereby, the inspection information terminal 1 can notify an inspection worker or the like that the component for which the aging score addition process has been performed has progressed in deterioration and that inspection work for the component is required.

Next, among the aging information processing in the server 3, aging score correction processing will be explained. FIG. 18 is a flowchart illustrating an example of the aging score correction process of the server 3 included in the inspection plan creation support system 100 according to the first embodiment. Here, a case will be described in which the object to which the aging score correction process is executed is a component of equipment.

In step S410, the terminal data transmitted from the inspection information terminal 1 is received. Specifically, the aging information processing section 333 of the server processing section 33 of the server 3 receives the terminal data transmitted from the inspection information terminal 1.

The inspection information terminal 1 transmits information input by the inspection worker from the input unit 15 to the server 3 as terminal data. Upon receiving the terminal data transmitted from the inspection information terminal 1, the server communication section 31 of the server 3 transmits the terminal data to the terminal data processing section 332. When the terminal data processing unit 332 receives the terminal data transmitted from the server communication unit 31, the terminal data processing unit 332 stores the terminal data in the equipment maintenance information storage unit 324. After that, the process advances to step S420.

In step S420, it is determined what the content of the terminal data transmitted from the inspection information terminal 1 is. Specifically, the aging information processing unit 333 determines the content of the terminal data transmitted from the inspection information terminal 1. That is, the aging information processing unit 333 determines whether the terminal data is inspection record information or maintenance record information. The terminal data processing section 332 transmits the determination result of whether the terminal data is inspection record information or maintenance record information to the aging information processing section 333 of the server processing section 33 of the server 3.

If it is determined that the terminal data is inspection record information (step S420: inspection record information), the process advances to step S430. If it is determined that the terminal data is maintenance record information (step S420: maintenance record information), the process advances to step S490.

In step S430, the aging score corresponding to the part ID of the part to be processed in the aging information processing, that is, the aging score corresponding to the part ID of the part to be subjected to the aging score correction process is acquired. Specifically, the aging information processing unit 333 uses the aging information table 55 stored in the aging score information storage unit 325 in the server storage unit 32 of the server 3 to determine the component ID of the component for which the aging score correction process is to be performed. Obtain the corresponding aging score. After that, the process advances to step S440.

In step S440, the aging score correction table 57 corresponding to the part ID of the part to be processed in the aging information process, that is, the aging score correction table 57 corresponding to the part ID of the part to be subjected to the aging score correction process is acquired. be done. Specifically, the aging information processing unit 333 stores the aging score correction table 57 corresponding to the part ID of the part to be subjected to the aging score correction process, which is stored in the aging score information storage unit 325 in the server storage unit 32. get. After that, the process advances to step S450.

Information on the durable operating time of the equipment specification information 51 stored in the equipment specification information storage unit 321 is reflected in the aging score correction table 57 in advance. When the information on the durable operating time of the equipment specification information 51 is updated, the aging information processing unit 333 causes the updated information to be reflected in the aging score correction table 57 in advance. In addition, the initial measured values of the quantitative inspection item results in the aging score correction table 57 may use inspection result information acquired when the aging score correction process is first executed, or may be arbitrarily determined. Normal values may also be used.

In step S450, cumulative operating time information corresponding to the component ID of the component targeted for aging information processing is acquired. Specifically, the aging information processing unit 333 selects a component ID corresponding to the component ID of the component to be processed in aging information processing from the equipment operation information 52 stored in the equipment importance information storage unit 323 in the server storage unit 32 of the server 3. Get cumulative operating time information. After that, the process advances to step S460.

In step S460, inspection record information related to the aging score of the component corresponding to the component ID of the component to be processed in aging information processing is acquired. Specifically, the aging information processing unit 333 obtains information related to the aging score corresponding to the component ID of the component to be processed in aging information processing from the equipment maintenance information storage unit 324 stored in the server storage unit 32 of the server 3. Obtain inspection record information.

In step S470, a correction coefficient is obtained from the aging score correction table 57. Specifically, the aged information processing unit 333 reflects the inspection record information acquired in step S460 on the aged score correction table 57, and acquires a correction coefficient from the aged score correction table 57 after reflecting the inspection record information. After that, the process advances to step S480.

In step S480, the correction coefficient is integrated into the aging score corresponding to the part ID of the part to be processed in aging information processing. Specifically, the aging information processing section 333 corresponds the correction coefficient acquired in step S470 to the component ID of the component to be processed for aging information processing in the aging information table 55 stored in the aging score information storage section 325. The aging score is integrated and the aging score of the aging information table 55 is updated. This completes a series of aging score correction processes.

In step S490, the aging score corresponding to the part ID of the part to be processed in the aging information processing, that is, the aging score corresponding to the part ID of the part to be subjected to the aging score correction process is acquired. Specifically, the aging information processing unit 333 uses the aging information table 55 stored in the aging score information storage unit 325 in the server storage unit 32 of the server 3 to determine the component ID of the component for which the aging score correction process is to be performed. Obtain the corresponding aging score. After that, the process advances to step S500.

In step S500, the aging score is reset. Specifically, the aging information processing unit 333 returns the aging score acquired in step S490 to 0, and sets the aging score corresponding to the component ID of the component to be subjected to the aging score correction process in the aging information table 55 to 0. Update with. This completes a series of aging score correction processes.

FIG. 19 is a diagram showing the flow of information related to processing in the inspection plan creation support system 100 according to the first embodiment. FIG. 19 shows the relationship between information and processing in calculating the aging score described above. In FIG. 19, Δt indicates the elapsed time from the time when the previous aging score addition process was performed to the time when the current aging score addition process was performed.

As shown in FIG. 19, in the inspection plan creation support system 100, the influence of information included in the equipment importance score table 53, the correction magnification table 54 by equipment importance, the evaluation score table 58, and the correction coefficient table 59 on the inspection plan. By correcting the degree, the aging score can be calculated for each piece of equipment and each part based on the equipment specification information, equipment operation information, and equipment maintenance information. Furthermore, in the inspection plan creation support system 100, by correcting the aging score using the aging score correction table 57, the inspection results can be reflected in the aging score. Thereby, the inspection plan creation support system 100 can automatically modify the priority of equipment inspection implementation in accordance with the operating status of the equipment. The inspection plan creation support system 100 can notify the inspection information terminal 1 of inspection request information based on the aging score.

Then, based on the inspection request information, the inspection worker can conduct an appropriate inspection of the equipment according to the operating status of the equipment. In other words, the equipment whose inspection request information has been notified to the inspection information terminal 1 can be said to be equipment operating under high load. Additionally, equipment whose inspection request information is not notified to the inspection information terminal 1 can be said to be equipment that is operating at a low load. The inspection worker can create an inspection plan for preferentially inspecting the facilities for which inspection request information has been notified to the inspection information terminal 1. Furthermore, for equipment for which inspection request information has not been notified to the inspection information terminal 1, the inspection worker can create an inspection plan that reduces the frequency of inspections and suppresses excessive inspections.

As described above, according to Embodiment 1, an inspection including a server and an equipment measuring device that is capable of communicating with the server, measures the operating state of equipment, and transmits operating data that is the measurement result to the server. A planning support system is realized. The server then provides equipment specification information, which is information about the equipment specifications, equipment operation information, which is information indicating the operating status of the equipment and consists of operation data, and information that evaluates the equipment that will suffer major damage in the event of equipment failure. an aging information processing unit that calculates an aging score, which is information indicating the level of deterioration of the equipment, based on equipment importance information, which is equipment importance information, and equipment maintenance information, which is information about equipment maintenance of the equipment; It includes an inspection plan processing unit that generates inspection request information requesting implementation of equipment inspection work, and a communication unit that communicates with a device external to the server.

Further, according to the first embodiment, there is provided an inspection plan creation program that causes a computer to function as a server for supporting the formulation of an inspection plan for equipment, and the program includes operational data indicating the operating status of the equipment, and equipment maintenance of the equipment. a step of receiving equipment maintenance information, which is information about the equipment; equipment specification information, which is information about the equipment specifications; equipment operation information, which is information indicating the operating status of the equipment, and which consists of operation data; A step of calculating an aging score, which is information indicating the level of deterioration of the equipment, based on equipment importance information, which is information for evaluating equipment that has suffered major damage, and equipment maintenance information; An inspection plan creation program that causes a computer to execute the step of generating inspection request information requesting execution of inspection work is realized.

As described above, according to the inspection plan creation support system 100 according to the first embodiment, the server 3 calculates the aging score based on the information on the operating status of the equipment acquired from the equipment measuring device 2, and performs equipment maintenance. It is determined that the equipment to be inspected, which is the equipment to be inspected, is in a state requiring maintenance and inspection, and inspection request information is generated to request implementation of inspection work for the equipment that requires inspection, and inspection request information is generated. can be transmitted to the inspection information terminal 1. Further, the server 3 can reflect the inspection results in the aging score. Therefore, according to the inspection plan creation support system 100, it is possible to support the operator in drawing up an inspection plan for equipment.

Therefore, according to the inspection plan creation support system 100, with a simple configuration, it is possible to determine that equipment is in a state that requires maintenance and inspection, and to generate information requesting implementation of inspection work for equipment that requires inspection. This has the effect of

According to the inspection plan creation support system 100, by using the measurement results of several measuring devices that acquire information on the operating status of the equipment, or by using the measurement results of several measuring devices and the equipment at the site. By combining the inspection record results of It becomes possible to create an inspection plan that reduces the burden of inspection work. According to the inspection plan creation support system 100, inspection work can be performed only on equipment that requires inspection work, and maintenance is performed only when it is determined to be necessary. Management becomes possible.

Embodiment 2.
In Embodiment 2, when there is a plurality of various equipment to be inspected in a facility such as a factory, information indicating the relationship between the pieces of equipment is used when requesting an inspection worker to inspect the equipment. Next, an inspection plan creation support system 100A having a function of suggesting facilities that are preferably inspected together will be described. In the following, components having the same functions as those in Embodiment 1 are designated by the same reference numerals and explanations are omitted, and differences from inspection plan creation support system 100 according to Embodiment 1 will be mainly explained.

FIG. 20 is a diagram illustrating an example of the configuration of an inspection plan creation support system 100A according to the second embodiment. As shown in FIG. 20, the inspection plan creation support system 100A according to the second embodiment includes an inspection information terminal 1A instead of the inspection information terminal 1, and a server 3A instead of the server 3. This is different from the inspection plan creation support system 100 according to the first embodiment.

The inspection information terminal 1A, based on the received inspection request information, queries the server 3A for inspection plan information of related equipment related to the equipment for which an inspection request has been notified among the plurality of inspection target equipment. This is different from the inspection information terminal 1 in the inspection plan creation support system 100 according to No. 1.

The server 3A notifies the inspection information terminal 1A of a request to perform inspection work through the same process as the server 3 according to the first embodiment. That is, the server 3A has the same configuration as the server 3 in the inspection plan creation support system 100 according to the first embodiment, performs the same processing as the server 3, and performs inspection work on equipment that requires inspection. Inspection request information indicating the request is sent to the inspection information terminal 1A. Additionally, the server 3A processes information regarding related equipment transmitted from the inspection information terminal 1A.

Related equipment is equipment to which the same inspection sheet is applied to the inspection of the equipment to be inspected for which inspection work is requested in the inspection plan information, and equipment for which the inspection work is not requested to be performed in the inspection plan information. This is equipment that is installed within a predetermined range of the installation location of the requested equipment to be inspected. The installation location and predetermined range of equipment to be inspected for which inspection work is requested in the inspection plan information are the same as the equipment to be inspected for which inspection work is requested to be performed in the inspection plan information. It can be said that the equipment is located in an area where the equipment is close to each other.

Note that the inspection plan creation support system 100A according to the second embodiment has the functions of the inspection plan creation support system 100 according to the first embodiment. Therefore, the inspection plan creation support system 100A has the effects of the inspection plan creation support system 100.

FIG. 21 is a diagram showing an example of the configuration of an inspection information terminal 1A included in the inspection plan creation support system 100A according to the second embodiment. As shown in FIG. 21, the inspection information terminal 1A is equipped with an inspection target information storage unit 12A, and when the terminal communication unit 11 acquires inspection plan information from the server 3A, the inspection information terminal 1A is an inspection target equipment that has been requested to be inspected. In addition, the inspection information terminal according to the first embodiment includes an equipment maintenance information processing unit 13A that performs a determination process for proposing to perform an inspection together with the equipment to be inspected from among related equipment. Different from 1. Note that the inspection information terminal 1A has the function of the inspection information terminal 1.

The inspection target information storage unit 12A stores information that can determine that the same inspection sheet is applied to the equipment as equipment related information, which is information indicating the relationship between multiple pieces of equipment to be inspected that exist in the facility. Certain inspection chart information and equipment installation position information that allows it to be determined that equipment is located in a close area are stored. The above information can be changed as appropriate by information input from outside the inspection information terminal 1A.

FIG. 22 is a diagram showing an example of inspection target information 60 stored in the inspection target information storage unit 12A of the inspection information terminal 1A included in the inspection plan creation support system 100A according to the second embodiment. The inspection target information 60 includes equipment information 60a that is equipment information that allows equipment to be identified, equipment ID that is identification information for identifying and managing equipment on an equipment basis, and identification that allows an inspection worker to identify equipment. This information includes the equipment name and the following information. In addition, the inspection target information 60 identifies and manages inspections to be applied to each of the inspection target facilities as inspection list information 60b, which is information on a check list applied to each of the inspection target facilities. The information includes an inspection sheet ID, which is identification information for the inspection, and an inspection sheet name, which is identification information for identifying and managing inspections that an inspection worker applies to each of the equipment to be inspected. In addition, the inspection target information 60 includes information on the name of the area where the equipment is installed as equipment installation location information 60c for identifying and managing where each of the equipment to be inspected is located in the premises. , information on the floor hierarchy such as the floor hierarchy on which the equipment is installed in the building, and information on the floor hierarchy where the equipment is installed in the building.

In the inspection sheet information 60b, the equipment maintenance information processing unit 13A includes first determination information for determining whether the same inspection or separate inspections are being performed on each of the plurality of inspection target facilities. The checklist ID and checklist name of the checklist are shown as an example. The first determination information may be information on the frequency of inspections such as daily patrol inspections or monthly periodic inspections, or information on the types of equipment such as power equipment and air conditioning equipment that supply various types of energy to other equipment. Good too.

In the equipment installation location information 60c, the equipment maintenance information processing unit 13A uses area name information and floor hierarchy as second determination information for determining whether each of the plurality of inspection target equipments is in a close positional relationship. This information is shown as an example. The second determination information may be information on the name of the installation location of the equipment such as "electrical room" and "server room", and is a global information that can determine whether the position coordinates of each of the multiple inspection target equipment are close to each other. It may be position coordinate information of a positioning system (Global Positioning System: GPS), which is an inspection route that can determine whether or not other equipment to be inspected is located on the inspection route of the equipment to be inspected that has been set in advance. It may be information.

Next, the operations performed by the inspection information terminal 1A will be explained. FIG. 23 is a flowchart showing an example of maintenance and inspection information processing of the inspection plan creation support system 100A according to the second embodiment.

In step S610, inspection plan information is acquired from the server 3A for the equipment for which inspection work is requested in the inspection request information. Specifically, the equipment maintenance information processing unit 13A of the inspection information terminal 1A acquires inspection plan information including information on the equipment to be inspected and information on the type of inspection for the equipment for which inspection work is requested in the inspection request information. do.

The equipment maintenance information processing unit 13A receives inspection request information transmitted from the server 3A via the terminal communication unit 11. Upon receiving the inspection request information, the equipment maintenance information processing unit 13A acquires inspection plan information for the equipment for which inspection work is requested in the inspection request information. The equipment maintenance information processing unit 13A acquires inspection plan information in the same manner as the equipment maintenance information processing unit 13 of the inspection information terminal 1 in step S110 described above. The information on the equipment to be inspected includes information corresponding to the equipment information 60a, inspection sheet information 60b, and equipment installation position information 60c of the inspection target information 60. After that, the process advances to step S620.

In step S620, it is determined whether there is any equipment related to the equipment to be inspected for which inspection work has been requested in the current inspection plan information. Specifically, the equipment maintenance information processing unit 13A uses the equipment-related information to determine whether there is any equipment related to the equipment to be inspected for which inspection work has been requested in the current inspection plan information.

Based on the information on the equipment to be inspected included in the acquired inspection plan information, the equipment maintenance information processing unit 13A selects the following information from the inspection sheet information 60b included in the inspection target information 60 stored in the inspection target information storage unit 12A. Search for and acquire equipment to which the same inspection sheet as the equipment to be inspected for which inspection work has been requested in the current inspection plan information is applied as related equipment. Furthermore, the equipment maintenance information processing unit 13A determines the equipment installation position information 60c held in the inspection target information 60 stored in the inspection target information storage unit 12A, based on the information on the inspection target equipment included in the acquired inspection plan information. From among them, equipment information that has location information that is close to the equipment to be inspected for which inspection work has been requested in the current inspection plan information is searched and acquired as related equipment. Thereby, the equipment maintenance information processing unit 13A can determine whether there is any equipment related to the equipment to be inspected for which inspection work has been requested in the current inspection plan information.

If it is determined that there is equipment related to the equipment to be inspected for which inspection work has been requested in the current inspection plan information, the answer is Yes in step S620, and the process proceeds to step S630. If it is determined that there is no equipment related to the equipment to be inspected for which inspection work has been requested in the current inspection plan information, the result in step S620 is No, and the process proceeds to step S650.

In step S630, inspection plan information is acquired from the server 3A for the related equipment. Specifically, the equipment maintenance information processing unit 13A acquires inspection plan information regarding related equipment. After that, the process advances to step S640.

In step S640, information on equipment whose scheduled inspection date is near from among the searched related equipment is acquired. Specifically, the equipment maintenance information processing unit 13A acquires information on equipment whose scheduled inspection date is near from among the searched related equipment. The equipment maintenance information processing unit 13A determines that it is more efficient to perform the inspection at the same timing as the equipment to be inspected when the scheduled inspection date is approaching, such as when an inspection is scheduled within one month, for example. Obtain only information about equipment for which there is a plan. After that, the process advances to step S650.

In step S650, information on equipment whose scheduled inspection date is close to the equipment for which inspection request information requests implementation of inspection work among related equipment, and information on equipment to be inspected for which inspection work implementation is requested in inspection request information. Information is displayed on the display section 14. Specifically, the equipment maintenance information processing unit 13A collects information about equipment whose scheduled inspection date is close to the equipment for which inspection request information requests implementation of inspection work among related equipment, and information about equipment whose scheduled inspection date is close to the equipment for which inspection work is requested in the inspection request information, and information about equipment whose inspection work implementation is requested in the inspection request information. Information about the requested equipment to be inspected is displayed on the display unit 14.

Note that when the process advances from step S620 to step S650, that is, when there is no related equipment, the equipment maintenance information processing unit 13A only collects information on the equipment to be inspected for which inspection work is requested in the inspection request information. It is displayed on the display unit 14.

The inspection worker uses the input section 15 to select, from among the plurality of related facilities displayed on the display section 14, the related facilities to be inspected together with the inspection target facility for which inspection work is requested in the inspection request information. Select by using After that, the process advances to step S660.

In step S660, the inspection list of the selected equipment to be inspected is displayed. Specifically, the equipment maintenance information processing unit 13A causes the display unit 14 to display a check list stored in the equipment maintenance information storage unit 12 in association with the related equipment selected by the inspection worker.

The inspection worker inspects the related equipment based on the inspection table in which information about the equipment to be inspected is displayed on the display unit 14. The inspection worker uses the input section 15 to input information on the inspection results performed by the inspection worker, which is inspection record information to be recorded in the inspection sheet displayed on the display section 14 . That is, the inspection worker performs an operation to input information on the date of inspection and information on the inspection results as information on the inspection results conducted on the related equipment into the input unit 15 of the inspection information terminal 1A. After that, the process advances to step S670.

In step S670, information on the inspection results performed on the related equipment by the inspection worker, which is inspection record information, is acquired. Specifically, the equipment maintenance information processing unit 13A acquires information on the inspection results performed by the inspection worker, which is inspection record information. When the equipment maintenance information processing unit 13A receives an inspection result input operation, which is an operation of inputting information on the inspection results received by the input unit 15, from an inspection worker, the equipment maintenance information processing unit 13A inputs the inspection result, which is operation information corresponding to the inspection result input operation. The input information is transmitted to the equipment maintenance information processing section 13A.

By receiving the inspection result input information, the equipment maintenance information processing unit 13A can acquire information on the inspection results of the related equipment performed by the inspection worker, which is inspection record information. The equipment maintenance information processing unit 13A records information on the inspection results for the related equipment as inspection record information in the inspection table for the related equipment, and stores it in the equipment maintenance information storage unit 12. After that, the process advances to step S680.

In step S680, information on the inspection results of the related equipment performed by the inspection worker, which is inspection record information, is transmitted to the server 3A. Specifically, the equipment maintenance information processing unit 13A converts inspection record information, which is information on inspection results of related equipment performed by an inspection worker, into a data format that can be stored in the equipment maintenance information storage unit 324 of the server 3A. do. The equipment maintenance information processing unit 13A transmits information on the inspection results regarding the related equipment after conversion to the server 3A via the terminal communication unit 11.

When the server communication unit 31 of the server 3A receives the converted inspection result information, which is the inspection record information transmitted from the terminal communication unit 11 of the inspection information terminal 1A, the server communication unit 31 transmits the converted inspection result information to the server 3. It is transmitted to the terminal data processing section 332. When the terminal data processing unit 332 receives the information on the inspection results for the related equipment after conversion transmitted from the server communication unit 31, the terminal data processing unit 332 stores the information on the inspection results for the related equipment after the conversion in the equipment maintenance information storage unit 324. Make me remember.

As described above, according to the inspection plan creation support system 100A according to the second embodiment, inspection sheet information, which is information for identifying and managing inspections to be applied to a plurality of pieces of equipment, and the installation position of the pieces of equipment are provided. An inspection target information storage unit 12A that stores equipment-related information including equipment installation location information that is location information for identification and management, and an inspection target information storage unit 12A that stores equipment-related information including equipment installation location information that is location information for identification and management; An inspection plan creation support system includes an equipment maintenance information processing unit 13A that extracts candidate equipment to be inspected together with the equipment to be inspected, in addition to the equipment to be inspected for which work has been requested. be done.

Similar to the inspection plan creation support system 100 according to the first embodiment, the inspection plan creation support system 100A according to the second embodiment generates inspection request information requesting the implementation of equipment inspection work and sends the inspection information. It can be transmitted to terminal 1A. Thereby, the inspection plan creation support system 100A can obtain the same effects as the inspection plan creation support system 100.

The inspection plan creation support system 100A according to the second embodiment generates information on equipment related to the equipment to be inspected for which inspection work has been requested in the inspection plan information. As a result, when inspection workers move to the site and perform inspection work on the equipment to be inspected for which inspection work has been requested in the inspection plan information, they can also inspect related equipment that will be requested to be inspected in the near future. It will also be possible to implement them together. This saves travel and preparation time for inspections compared to the case where inspections of the equipment to be inspected for which inspection work was requested in the inspection plan information and inspections of related equipment are carried out at different times. Since it can be reduced, inspection work can be performed efficiently. Therefore, by using the inspection plan creation support system 100A, it is possible to reduce the number of work hours related to equipment inspection work.

Next, the hardware configuration of the

inspection information terminals

1 and 1A will be explained. FIG. 24 is a diagram showing an example of the hardware configuration of the

inspection information terminal

1, 1A according to the first or second embodiment. The configuration example shown in FIG. 24 is a configuration example in which each of the equipment maintenance information processing unit 13 and the terminal control unit 17 of the inspection information terminal 1 is realized by a processing circuit 70 having a processor 72 and a memory 73. .

The processor 72 is a CPU (Central Processing Unit). The processor 72 may be an arithmetic device, a microprocessor, a microcomputer, or a DSP (Digital Signal Processor). The memory 73 is, for example, RAM (Random Access Memory), ROM (Read Only Memory), flash memory, EPROM (Erasable Programmable Read Only Memory), or EEPROM (registered trademark) (Electrically Erasable Programmable Read Only Memory). emory), etc.

The memory 73 stores a maintenance/inspection information processing program including programs for operating as each of the equipment maintenance information processing unit 13 and the terminal control unit 17. By having the processor 72 read and execute the maintenance/inspection information processing program, it is possible to realize the respective functions of the equipment maintenance information processing section 13 and the terminal control section 17. Note that the maintenance and inspection information processing program stored in the memory 73 is provided in a form written in a storage medium such as a CD (Compact Disc)-ROM or a DVD (Digital Versatile Disc)-ROM, for example. Alternatively, the information may be provided via a communication line.

Each of the equipment maintenance information processing section 13 and the terminal control section 17 may be realized by a dedicated processing circuit instead of the processor 72 and the memory 73. The dedicated processing circuit is a single circuit, a composite circuit, an ASIC (Application Specific Integrated Circuit), an FPGA (Field Programmable Gate Array), or a combination thereof. Note that part of the functions of the equipment maintenance information processing section 13 and the terminal control section 17 may be realized by the processor 72 and the memory 73, and the remaining functions may be realized by a dedicated processing circuit.

Furthermore, the memory 73 stores various information and realizes the respective functions of the equipment maintenance information storage unit 12 and the equipment maintenance information storage unit 12. The input device 71 is a keyboard, a mouse, a touch panel, or the like, and realizes the functions of the input section 15. The display device 75 is a liquid crystal display, an organic EL display, or the like, and realizes the function of the display section 14. The communication device 74 performs communication between the

inspection information terminal

1, 1A and a device external to the

inspection information terminal

1, 1A. The communication device 74 realizes the functions of the terminal communication section 11.

Next, the hardware configurations of the communication device 21 and the servers 3 and 3A will be explained. FIG. 25 is a diagram showing an example of the hardware configuration of the communication device 21 and the servers 3 and 3A of the first or second embodiment. The configuration example shown in FIG. 25 is a case where the communication device processing section 212 of the communication device 21, the server processing section 33 and the server control section 34 of the servers 3 and 3A are realized by a processing circuit 80 having a processor 81 and a memory 82. This is a configuration example.

Similarly to the processor 72 described above, the processor 81 is a CPU, an arithmetic unit, a microprocessor, a microcomputer, or a DSP. Like the memory 73 described above, the memory 82 is, for example, a RAM, ROM, flash memory, EPROM, EEPROM, or the like.

The memory 82 stores support programs for operating as the communication device processing section 212 of the communication device 21, and the server processing section 33 and server control section 34 of the servers 3 and 3A. By reading and executing the support program by the processor 81, it is possible to realize the respective functions of the communication device processing section 212 of the communication device 21, the server processing section 33 and the server control section 34 of the servers 3 and 3A. . In the case of the servers 3 and 3A, the memory 82 stores an inspection plan creation program that implements the functions of the server processing section 33. Note that the support program stored in the memory 82 may be provided in a form written in a storage medium such as a CD-ROM or DVD-ROM, or may be provided via a communication line. It may be.

The communication device processing section 212, the server processing section 33 of the servers 3 and 3A, and the server control section 34 may each be realized by a dedicated processing circuit instead of the processor 81 and the memory 82. The dedicated processing circuit can be a single circuit, a composite circuit, an ASIC, an FPGA, or a combination thereof. Note that part of the functions of the communication device processing unit 212, the server processing unit 33 of the servers 3 and 3A, and the server control unit 34 are realized by the processor 81 and the memory 82, and the remaining functions are realized by a dedicated processing circuit. You may.

Furthermore, the memory 82 stores various information and realizes the functions of the communication device storage section 231 or the server storage section 32. The communication device 83 performs communication between the communication device 21 and a device external to the communication device 21 . The communication device 83 realizes the functions of the communication device communication section 211. Further, the communication device 83 performs communication between the servers 3 and 3A and devices external to the servers 3 and 3A. The communication device 83 realizes the functions of the server communication section 31.

The configurations shown in the embodiments above are merely examples, and can be combined with other known techniques, or can be combined with other embodiments, within the scope of the gist. It is also possible to omit or change part of the configuration.

1, 1A inspection information terminal, 2 equipment measuring device, 3, 3A server, 4 network, 11 terminal communication section, 12 equipment maintenance information storage section, 12A inspection target information storage section, 13, 13A equipment maintenance information processing section, 14 display Part, 15 Input section, 16 Terminal storage section, 17 Terminal control section, 21 Communication device, 22 Temperature measurement device, 23 Humidity measurement device, 24 Electrical measurement device, 25 Measurement device, 31 Server communication section, 32 Server storage section, 33 Server processing unit, 34 Server control unit, 51 Equipment specification information, 52 Equipment operation information, 53 Equipment importance score table, 54 Correction magnification table by equipment importance level, 55 Aging information table, 56 Aging score addition table, 57 Aging score correction Table, 58 Evaluation point table, 59 Correction coefficient table, 60 Inspection target information, 60a Equipment information, 60b Inspection sheet information, 60c Equipment installation position information, 70, 80 Processing circuit, 71 Input device, 72, 81 Processor, 73, 82 Memory, 74, 83 Communication device, 75 Display device, 100, 100A Inspection plan creation support system, 211 Communication device communication section, 212 Communication device processing section, 213 Communication device storage section, 214 Communication device control section, 251 Measurement section, 252 measurement communication section, 253 measurement storage section, 254 measurement control section, 321 equipment specification information storage section, 322 equipment operation information storage section, 323 equipment importance information storage section, 324 equipment maintenance information storage section, 325 aging score information storage section, 326 Inspection plan information storage unit, 331 Equipment measurement data processing unit, 332 Terminal data processing unit, 333 Aging information processing unit, 334 Inspection plan processing unit, 2121 Operation data acquisition unit, 2122 Operation data response processing unit.

Claims

server and
an equipment measuring device that is capable of communicating with the server, measures the operating state of the equipment, and transmits operating data that is the measurement result to the server;
The server is
equipment specification information that is information on the specifications of the equipment; equipment operation information that is information that indicates the operating status of the equipment and is made up of the operation data; and information that evaluates equipment that will suffer great damage if the equipment breaks down. an aging information processing unit that calculates an aging score, which is information indicating a level of deterioration of the equipment, based on certain equipment importance information and equipment maintenance information, which is information regarding equipment maintenance of the equipment;
an inspection plan processing unit that generates inspection request information requesting implementation of inspection work for the equipment based on the aging score;
a communication unit that communicates with a device external to the server;
to have
An inspection plan creation support system featuring:
The server includes a storage unit that stores the equipment specification information, the equipment operation information, the equipment importance information, and the equipment maintenance information,
The aging information processing unit acquires the equipment specification information, the equipment operation information, the equipment importance information, and the equipment maintenance information from the storage unit;
The inspection plan creation support system according to claim 1, characterized in that:
The server includes an equipment measurement data processing unit that acquires the operation data from the equipment measurement device and stores it in the storage unit as the equipment operation information;
The inspection plan creation support system according to claim 2, characterized in that:
The server includes an equipment maintenance information processing unit that acquires the equipment maintenance information from a device external to the server and stores it in the storage unit;
The inspection plan creation support system according to claim 2, characterized in that:
The aging information processing unit calculates the aging score based on the time elapsed since the previous calculation of the aging score;
The inspection plan creation support system according to any one of claims 1 to 4.
The aging information processing unit calculates the aging score based on an average value of a plurality of different pieces of equipment operation information;
The inspection plan creation support system according to any one of claims 1 to 5.
The equipment importance information includes the operating status of the equipment, the effect of the equipment failure in the event of a failure, the number of recovery days that is the number of days it will take to recover if the equipment failure occurs, and the equipment importance information. The information was evaluated based on the cost and
The inspection plan creation support system according to any one of claims 1 to 6.
The aging information processing unit corrects the aging score based on aging deterioration of the equipment, inspection results of a qualitative inspection of the equipment, and inspection results of a quantitative inspection of the equipment;
The inspection plan creation support system according to any one of claims 1 to 7.
comprising an inspection information terminal that transmits the equipment maintenance information to the server,
The inspection plan processing unit transmits the inspection request information to the inspection information terminal;
The inspection plan creation support system according to any one of claims 1 to 8, characterized by:
Stores equipment-related information for multiple pieces of equipment, including inspection sheet information, which is information for identifying and managing inspections applied to equipment, and equipment installation position information, which is position information for identifying and managing equipment installation positions. an inspection target information storage unit,
Based on the equipment-related information, among the plurality of equipments, in addition to the equipment to be inspected for which implementation of equipment inspection work is requested in the inspection request information, the inspection is performed together with the equipment to be inspected. an equipment maintenance information processing unit that extracts candidate equipment;
The inspection plan creation support system according to claim 1, further comprising:
A server for supporting planning of inspection plans for equipment,
Equipment specification information, which is information on the specifications of the equipment, and equipment operation information, which is information indicating the operating state of the equipment and is a measured value of the operating state of the equipment, which is obtained from an equipment measuring device that can communicate with the server. The level of deterioration of the equipment is indicated based on equipment importance information, which is information for evaluating the equipment that would cause major damage if the equipment breaks down, and equipment maintenance information, which is information about equipment maintenance of the equipment. an aging information processing unit that calculates an aging score, which is information;
an inspection plan processing unit that generates inspection request information to request equipment inspection of the equipment based on the aging score;
a communication unit that communicates with a device external to the server;
A server characterized by comprising:
An inspection plan creation program that causes a computer to function as a server to support the creation of an inspection plan for equipment,
receiving operation data indicating the operating state of the equipment and equipment maintenance information that is information regarding equipment maintenance of the equipment;
equipment specification information that is information on the specifications of the equipment; equipment operation information that is information that indicates the operating status of the equipment and is made up of the operation data; and information that evaluates equipment that will suffer great damage if the equipment breaks down. calculating an aging score, which is information indicating a level of deterioration of the equipment, based on certain equipment importance information and the equipment maintenance information;
generating inspection request information requesting implementation of inspection work for the equipment based on the aging score;
An inspection plan creation program characterized by causing the computer to execute.