JP7279830B1 - Maintenance inspection result presentation device - Google Patents

Abstract

An object of the present invention is to provide a maintenance and inspection result presentation device that enables a user to easily grasp the maintenance and inspection results of equipment. According to an embodiment, a maintenance and inspection result presentation device includes an input unit, a maintenance and inspection information storage unit, and a screen generation unit. The input unit inputs the results of maintenance and inspections performed on the maintenance and inspection target equipment deployed in the facility. The maintenance and inspection information storage unit stores the input result of maintenance and inspection. Based on the stored maintenance and inspection results, the screen generation unit generates a display screen in which the results of maintenance and inspection performed on the equipment subject to maintenance and inspection are superimposed on the three-dimensional display image of the facility, and generates the generated display screen. to the outside. [Selection drawing] Fig. 3

Description

Application of Article 30, Paragraph 2 of the Patent Law 1. November 17-19, 2021 Announced at Inter BEE 2021 (International Broadcast Equipment Exhibition) 2. November 17-19, 2021 Inter BEE 2021 (International Broadcast Equipment Exhibition) Presented in handouts at the exhibition

An embodiment of the present invention relates to a maintenance inspection result presentation device.

Maintenance and inspection workers who have performed maintenance inspections on equipment subject to maintenance inspection such as stage equipment, lighting equipment, audio equipment, etc. deployed in facilities such as theaters, halls, television studios, etc., to customers such as facility managers, We have submitted a paper maintenance and inspection report showing the results of the maintenance and inspection.

Since such paper-based maintenance and inspection reports contain many textual explanations, it is difficult to understand the contents of the maintenance and inspection report for the equipment without specialized knowledge of the equipment to be inspected.

In particular, in many cases, the person in charge who has the right to make decisions regarding the repair or replacement of equipment is different from the person who actually handles the equipment. Therefore, it is not easy for an equipment operator who has specialized knowledge about the equipment to make the person in charge understand the necessity of repair, replacement, etc. of the equipment based on the maintenance inspection report. is a hindrance to the rapid implementation of

JP-A-2005-353473

The problem to be solved by the present invention is to provide a maintenance and inspection result presentation device that enables a user to easily grasp the maintenance and inspection results of equipment.

According to the embodiment, the maintenance and inspection result presentation device includes an input unit, a maintenance and inspection information storage unit, and a screen generation unit. The input unit receives the results of maintenance and inspection performed on a plurality of maintenance and inspection target devices deployed in the facility. The maintenance and inspection information storage unit stores the input result of maintenance and inspection. Based on the stored maintenance and inspection results, the screen generation unit generates a display screen in which the results of maintenance and inspection performed on the equipment subject to maintenance and inspection are superimposed on the three-dimensional display image of the facility, and creating a list of the status stages of the maintenance and inspection target equipment based on the status information indicating which of the plurality of status stages the equipment status of the maintenance and inspection target equipment is determined by is superimposed on the three-dimensional display image and transmitted to the outside.

ADVANTAGE OF THE INVENTION According to this invention, the maintenance inspection result presentation apparatus which can grasp the maintenance inspection result of apparatus easily is provided.

FIG. 1 is a schematic configuration diagram showing an example of a maintenance inspection result presentation system according to the first embodiment. FIG. 2 is a block diagram showing an example of a hardware configuration of a server device as a maintenance inspection result presentation device according to the first embodiment. FIG. 3 is a block diagram illustrating an example of a functional configuration of a server device; FIG. 4 is a diagram schematically showing an example of device information stored in the device information storage section in FIG. FIG. 5 is a diagram schematically showing an example of maintenance and inspection report information stored in the maintenance and inspection report storage section in FIG. FIG. 6 is a flow chart showing an example of a maintenance and inspection work procedure of a service person who performs maintenance and inspection work on equipment. FIG. 7 is a diagram showing a display example of a 3D model. FIG. 8 is a diagram showing the result of tagging in the display example of the 3D model in FIG. FIG. 9A is a diagram showing a first part of a flowchart showing an example of processing operations performed in the server device. FIG. 9B is a diagram illustrating a second part of a flowchart illustrating an example of processing operations performed in the server device; FIG. 9C is a diagram illustrating a third part of a flowchart illustrating an example of processing operations performed in the server device; FIG. 10 is a diagram showing a display example of a 3D model. FIG. 11 is a diagram showing a display example of a 3D model. FIG. 12 is a diagram showing a display example of a 3D model. FIG. 13 is a schematic configuration diagram showing an example of a maintenance inspection result presentation system according to the second embodiment. FIG. 14 is a block diagram showing an example of a functional configuration of a server device as a maintenance inspection result presentation device according to the second embodiment. FIG. 15 is a diagram showing part of a flowchart showing an example of processing operations performed in the server device according to the second embodiment. FIG. 16 is a block diagram showing an example of a functional configuration of a server device as a maintenance inspection result presentation device according to the third embodiment. 17 is a diagram schematically showing an example of device information stored in the device information storage unit in FIG. 16. FIG. FIG. 18 is a flow chart showing an example of a maintenance and inspection work procedure of a service person who performs maintenance and inspection work on equipment. FIG. 19 is a diagram showing a display example of a 3D model. FIG. 20A is a diagram showing a second part of a flowchart showing an example of processing operations performed in the server device. FIG. 20B is a diagram illustrating a fourth part of a flowchart illustrating an example of processing operations performed in the server device; FIG. 21 is a diagram showing a display example of an edit screen.

The maintenance and inspection result presentation device (1) of the embodiment includes an input unit (111; 112), a maintenance and inspection information storage unit (122; 123), and a screen generation unit (114). Prepare. The input unit (111; 112) receives the result of maintenance and inspection performed on the equipment to be maintained and inspected installed in the facility. The maintenance and inspection information storage unit (122; 123) stores the input result of maintenance and inspection. A screen generation unit (114) generates a display screen in which the results of maintenance and inspection performed on the target equipment for maintenance and inspection are superimposed on the three-dimensional display image (101) of the facility based on the stored results of maintenance and inspection. , and transmits the generated display screen to the outside (3). As a result, an external (3) viewer can easily grasp where in the facility the equipment to be maintained and inspected is located and what kind of equipment it is. Therefore, according to the maintenance and inspection result presentation device (1) of the embodiment, it is possible to easily grasp the maintenance and inspection results of equipment.

The input unit of the maintenance and inspection result presentation device (1) of the embodiment includes a report creation unit (112) for inputting maintenance and inspection report information related to a maintenance and inspection report describing the results of maintenance and inspection. Further, the maintenance and inspection information storage unit of the maintenance and inspection result presentation device (1) of the embodiment includes a maintenance and inspection report storage unit (123) that stores maintenance and inspection report information. Then, the screen generation unit (114) of the maintenance inspection result presentation device (1) of the embodiment generates the display screen (including comments) based on the stored maintenance inspection report information. As a result, simply by creating a maintenance and inspection report, the display screen reflecting the results of maintenance and inspection can be viewed externally (3).

The maintenance/inspection information storage unit of the maintenance/inspection result presentation device (1) of the embodiment stores status information (tag form) indicating which of a plurality of status stages the equipment status of the equipment to be subjected to maintenance/inspection determined by maintenance/inspection is. It further comprises a device information storage unit (122) that stores the . Further, the report creation unit (112) of the maintenance and inspection result presentation device (1) of the embodiment judges the equipment state of the maintenance and inspection target equipment based on the stored maintenance and inspection report information, and based on the judgment result The state information in the device information storage unit (122) is updated. Further, the screen generation unit (114) of the maintenance and inspection result presentation device (1) of the embodiment displays the results of the maintenance and inspection of the equipment to be maintained and inspected based on the stored state information. is superimposed on the three-dimensional display image (101) as an icon (100) indicating . Therefore, just by looking at the icon, it becomes possible to grasp the state of the device, and to instantly determine the device for which a problem has been found during maintenance and inspection.

The maintenance/inspection information storage unit of the maintenance/inspection result presentation device (1) of the embodiment stores status information (tag form) indicating which of a plurality of status stages the equipment status of the equipment to be subjected to maintenance/inspection determined by maintenance/inspection is. and a device information storage unit (122) for storing. The input unit of the maintenance inspection result presentation device (1) of the embodiment includes a state information input unit (111) for inputting state information on the three-dimensional display image (101) of the facility. Then, the screen generation unit (114) of the maintenance and inspection result presentation device (1) of the embodiment displays the result of the maintenance and inspection of the maintenance and inspection target equipment based on the stored status information. is superimposed on the three-dimensional display image (101) as an icon (100) indicating . Therefore, just by looking at the icon, it becomes possible to grasp the state of the device, and to instantly determine the device for which a problem has been found during maintenance and inspection.

The state information input unit (111) of the maintenance and inspection result presentation device (1) of the embodiment receives, from an external terminal, for example, a serviceman terminal (2) of a serviceman who performs maintenance and inspection, on the three-dimensional display image (101) Designation of the position on which the icon should be superimposed and input of the state stage of the maintenance and inspection target equipment corresponding to the position are accepted. Therefore, since the results of maintenance and inspection can be input on the three-dimensional display image (101) of the facility, the serviceman can immediately input the results of the maintenance and inspection work on the spot.

The input unit of the maintenance and inspection result presentation device (1) of the embodiment further includes a report creation unit (112) for inputting maintenance and inspection report information related to a maintenance and inspection report describing the results of maintenance and inspection. The maintenance and inspection information storage unit of the maintenance and inspection result presentation device (1) of the embodiment further includes a maintenance and inspection report storage unit (123) that stores maintenance and inspection report information. Then, the state information input unit (111) of the maintenance and inspection result presentation device (1) of the embodiment further receives input of comments related to the results of maintenance and inspection of the equipment to be maintained and inspected, and stores the received comments in the equipment information storage unit. (122) is associated with the state information and stored, and is added to the maintenance and inspection report information of the maintenance and inspection report storage unit (123). Therefore, when the serviceman prepares the maintenance inspection report, there is no need to re-enter the items that have already been entered, and the serviceman's labor can be saved.

A plurality of maintenance and inspection target devices are deployed in the facility, and the screen generation unit (114) of the maintenance and inspection result presentation device (1) of the embodiment further performs maintenance based on the state information of the device information storage unit (122). A list is created by sorting the devices to be inspected in the order of state stages, and the created list (103) is superimposed on the three-dimensional display image (101). Therefore, it is possible to sort the equipment so that the equipment in the status stage in which the problem discovered by the maintenance inspection is important is arranged at the top of the list, so that it is possible to easily determine the equipment that needs to be solved. become.

In the screen generation unit (114) of the maintenance inspection result presentation device (1) of the embodiment, a selection button (104) for selecting the state stage is further superimposed on the three-dimensional display image (101), and the external (3 ), a list (103) is superimposed on the three-dimensional display image (101) so as to include only the maintenance inspection target equipment in the state stage indicated by the selection result in response to receiving the selection result of the selection button (104) ). Therefore, since it is possible to narrow down by the status stages of the devices, it is possible to easily grasp which device is in each status stage.

In the screen generation unit (114) of the maintenance and inspection result presentation device (1) of the present embodiment, in addition to the display screen in which the maintenance and inspection result is superimposed on the partial three-dimensional display image of the specific position in the facility, the entire facility is displayed. A display screen is generated in which maintenance inspection results are superimposed on the entire three-dimensional display image. As a result, it is possible to obtain a bird's-eye view of where in the facility each device that has undergone maintenance and inspection is deployed, and furthermore, the deployment position of the device in which a problem has been discovered.

The maintenance inspection result presentation device (1) of the present embodiment further includes an acquisition unit (115). An acquisition unit (115) acquires usage time information indicating the usage time of the equipment to be maintained and inspected, and updates the state information stored in the equipment information storage unit (122) based on the usage time information. Therefore, it is possible to automatically observe the actual maintenance and inspection of the equipment to be maintained and inspected.

Hereinafter, embodiments will be described with reference to the drawings.

(First embodiment)
FIG. 1 is a schematic configuration diagram showing an example of a maintenance inspection result presentation system according to the first embodiment. As shown in FIG. 1 , the maintenance inspection result presentation system includes a server device 1 , a serviceman terminal 2 and a viewer terminal 3 . The server device 1, the serviceman terminal 2, and the viewer terminal 3 are connected via a network NW such as the Internet, and can transmit and receive information between them. Although only one serviceman terminal 2 and one viewer terminal 3 are shown in FIG. 1, the maintenance inspection result presentation system can include a plurality of each.

The server device 1 is a computer that functions as a maintenance inspection result presentation device according to the first embodiment. The server device 1 is prepared, for example, by a maintenance and inspection contractor who undertakes maintenance and inspection work for equipment subject to maintenance and inspection, such as stage equipment, lighting equipment, audio equipment, etc., deployed in facilities such as theaters, halls, and television studios. Here, "preparation" means not only installation and management by the maintenance and inspection company itself, but also entrusting the installation and management to the server provider. The server device 1 can operate as a web server that provides a web screen in which the contents of a maintenance inspection report are superimposed on a three-dimensional (3D) model of a facility.

The serviceman terminal 2 is a computer terminal operated by a serviceman who is a maintenance and inspection worker of a maintenance and inspection company. The serviceman terminal 2 includes a portable computer terminal such as a smartphone, tablet, or dedicated processing terminal carried by a serviceman when performing maintenance and inspection work on equipment subject to maintenance and inspection in a facility. Further, the serviceman terminal 2 may include a fixed computer terminal such as a personal computer (PC) installed in a work place such as an office where the serviceman stands by before and after maintenance and inspection work.

The viewer terminal 3 is a computer terminal for viewing web screens provided by the server device 1 . The viewer terminal 3 is a smart phone, tablet, PC, or the like capable of executing a web browser application. The viewer terminal 3 is, for example, a terminal operated by a customer such as an administrator of a facility, or a terminal operated by a person in charge who has the right to decide whether to repair, replace, or purchase a new facility equipment. For example, in a facility owned by a municipality, the manager of the management department that manages the facility should notify the person in charge of the department who decides the budget when repairing or purchasing new equipment, and even the assembly, etc. must be explained. In this case, the viewer terminal 3 serves as a terminal for administrators, budget decision-makers, members of the assembly, etc. to browse web screens in which the content of the maintenance and inspection report is superimposed on the 3D model of the facility.

FIG. 2 is a block diagram showing an example of the hardware configuration of the server device 1 as the maintenance inspection result presentation device according to the first embodiment. The server device 1 has a processor 11A such as a CPU (Central Processing Unit). The processor 11A may be multi-core/multi-threaded and capable of executing multiple processes in parallel. The server apparatus 1 connects a program memory 11B, a data memory 12, a communication interface 13 and an input/output interface 14 to the processor 11A via a bus 15. FIG.

The program memory 11B includes, as storage media, a non-volatile memory such as a HDD (Hard Disk Drive) or an SSD (Solid State Drive) that can be written and read at any time, and a non-volatile memory such as a ROM (Read Only Memory). are used in combination. The program memory 11B stores programs necessary for the processor 11A to execute various processes. The programs include an OS (Operating System) and various application programs, and one of the application programs includes a 3D maintenance inspection report presentation program, the details of which will be described later.

The data memory 12 is a storage that uses a combination of a non-volatile memory, such as an HDD or SSD, which can be written and read at any time, and a volatile memory, such as a RAM (Random Access Memory), as a storage medium. The data memory 12 is used to store data acquired and created in the process of performing various processes.

The communication interface 13 is a wired or wireless communication unit for connecting with the network NW.

The input/output interface 14 is an interface with the input device 16 and the output device 17 .

The input device 16 includes a keyboard, pointing device, and the like for the user of the server device 1 to input instructions to the processor 11A. Furthermore, the input device 16 may include a reader for reading files and data to be stored in the data memory 12 from a memory medium such as a USB memory, and a disk device for reading such files and data from a disk medium. .

The output device 17 includes a display for displaying output data to be presented to the user from the processor 11A, a printer for printing the data, and the like. Further, the output device 17 can include speakers for outputting audio data and music data.

Note that the server device 1 may not include the input device 16 and/or the output device 17 . The server device 1 communicates with the user's information processing device via the network NW through the communication interface 13, receives files and data to be stored in the data memory 12, and transmits data to be output to the user. can be

The serviceman terminal 2 and the viewer terminal 3 may also include the same hardware configuration as the server device 1 shown in FIG.

FIG. 3 is a block diagram showing an example of the functional configuration of the server device 1 in association with the hardware configuration shown in FIG. 2. As shown in FIG.

The processing unit 11 is composed of the processor 11A and the program memory 11B, and includes a tag designation unit 111, a report creation unit 112, a 3D display designation unit 113, and a display information generation unit 114 as software processing function units. And prepare. These processing function units are realized by causing the processor 11A to execute the 3D maintenance inspection report presentation program stored in the program memory 11B. The processing unit 11 may also be implemented in various other forms, including integrated circuits such as ASICs (Application Specific Integrated Circuits), GPUs (Graphics Processing Units), FPGAs (field-programmable gate arrays), DSPs (Digital Signal Processors), etc. It may be realized by

The storage area of the non-volatile memory of the data memory 12 includes a 3D model storage section 121 , equipment information storage section 122 and maintenance inspection report storage section 123 . The storage area of the volatile memory of the data memory 12 includes a temporary storage section (not shown) that temporarily stores various data generated during the processing operation of the processing section 11 .

The 3D model storage unit 121 stores a 3D model of each facility created based on an omnidirectional image of the facility taken by an omnidirectional camera or the like. That is, the 3D model storage unit 121 can store a 3D model for each of one or more facilities. The method of generating the 3D model is not specified in particular. A 3D model created by an arbitrary 3D model creation device is input from the input device 16 via the input/output interface 14, or input from the network NW via the communication interface 13, and stored in the 3D model storage unit 121. . Of course, the server device 1 may have a 3D model creation function.

The equipment information storage unit 122 stores equipment information about each of the stage equipment, the lighting equipment, and the audio equipment that are delivered to each facility and are subject to maintenance and inspection. The device information storage unit 122 can store device information as a separate file for each facility, for example. Details of the device information stored in the device information storage unit 122 will be described later.

The maintenance/inspection report storage unit 123 stores maintenance/inspection report information indicating the results of maintenance/inspection of maintenance/inspection target equipment for each facility. The maintenance inspection report storage unit 123 can store maintenance inspection report information as a separate file for each facility, for example. Details of the maintenance and inspection report information stored in the maintenance and inspection report storage unit 123 will be described later.

The tag designation unit 111 tags the 3D model stored in the 3D model storage unit 121 based on the tagging instruction received by the communication interface 13 and transmitted from the serviceman terminal 2 via the network NW. . In this embodiment, tagging means embedding a tag ID, which is identification information for specifying a tag, at a designated position on the 3D model. Of course, it goes without saying that tagging may be performed by other methods, such as recording the position on the 3D model in a separate file in association with the tag ID. Furthermore, the tag specifying unit 111 also records the tag ID for the device information stored in the device information storage unit 122 .

The report creation unit 112 stores the contents of the report received by the communication interface 13 and transmitted from the serviceman terminal 2 via the network NW in the maintenance inspection report storage unit 123 as maintenance inspection report information. Let Furthermore, the report creation unit 112 records the tag form indicating what kind of tag icon is used to display the tag for each maintenance and inspection target device in the device information stored in the device information storage unit 122 . The tag icon represents the state of the equipment to be maintained and inspected, and the details will be described later. In addition, the report creation unit 112 generates report print information for printing on paper based on the maintenance inspection report information stored in the maintenance inspection report storage unit 123 , and sends it to the network via the communication interface 13 . It is transmitted to the serviceman terminal 2 via the NW.

The 3D display designation unit 113 instructs the display information generation unit 114 to generate a display screen in response to a display request that is received by the communication interface 13 and transmitted from the serviceman terminal 2 or the viewer terminal 3 via the network NW. do.

The display information generation unit 114 generates a display screen based on the contents stored in the 3D model storage unit 121 , the device information storage unit 122 and the maintenance inspection report storage unit 123 in response to an instruction from the 3D display designation unit 113 . Then, the display information generation unit 114 transmits the generated display screen to the serviceman terminal 2 or the viewer terminal 3 via the network NW using the communication interface 13, and the display screen is viewed there. In addition, the display information generation unit 114 updates the display screen so as to include the tag icon at the tagged position in response to the tagging operation by the tag designation unit 111 . Furthermore, when the report creation unit 112 creates a report, the display information generation unit 114 may create a report creation screen and transmit it to the serviceman terminal 2 via the network NW using the communication interface 13 . conduct.

FIG. 4 is a diagram schematically showing an example of device information stored in the device information storage unit 122. As shown in FIG. The equipment information storage unit 122 can store the equipment information in the form of a table as shown in FIG. 4, for example, as a file for each equipment type of stage equipment, lighting equipment, and audio equipment for each facility. The example in FIG. 4 is a device information file of a lighting device. A file can be distinguished from files of other facilities by, for example, using the name of the facility and the date of creation as the file name. For example, each time a facility's equipment is removed or added, a new file can be generated by modifying the latest file for the facility and stored in the equipment information storage unit 122 . Alternatively, only the name of the facility may be used as the file name, and the file for the facility may be updated each time a facility device is removed or added. It goes without saying that when a device is added, the 3D model of the facility stored in the 3D model storage unit 121 is also updated.

The device information file stored in the device information storage unit 122 includes, for example, information on items such as device name, installation location, delivery date, tag ID, and tag format, as shown in FIG. Here, the contents of each item of the device name, installation location, and delivery date can be recorded by the serviceman at the time of delivery of the device. In the tag ID item, the tag ID, which is identification information embedded in the 3D model stored in the 3D model storage unit 121 as described above, is recorded by the tag designation unit 111 at the time of tagging. Note that tag IDs are not necessarily set for all devices in the device information file. That is, it is possible to register devices other than the maintenance and inspection target devices in the device information file. Conversely, a plurality of tag IDs may be set for one maintenance and inspection target device. As described above, the tag form item is information indicating what kind of tag icon is to be displayed, and is recorded by the report creation unit 112 when creating a report.
That is, the tag form, which is the recorded contents of the item of the tag form, is status information indicating which of a plurality of status stages the equipment status determined by maintenance and inspection is, for example, safe, caution required, or dangerous. Shows three steps. Therefore, the tag icon has a different display for each of safety, caution, and danger. It goes without saying that the device information file may also include information on other items such as the device manufacturing number, manufacturer name, delivery party, and the like.

In addition, the device information storage unit 122 may be a file for each facility instead of a file for each device type for each facility. In this case, by adding the model type item as an item of the device information file, based on the information in this model type item, it is possible to determine which type of device type each device is: stage equipment, lighting equipment, or audio equipment. can be discriminated.

FIG. 5 is a diagram schematically showing an example of maintenance and inspection report information stored in the maintenance and inspection report storage unit 123. As shown in FIG. The maintenance/inspection report storage unit 123 can store maintenance/inspection report information, for example, in the form of a table as shown in FIG. . The file can be distinguished from other maintenance and inspection report files by, for example, using the facility name and creation date as the file name.

The file of maintenance and inspection report information stored in the maintenance and inspection report storage unit 123 includes, for example, information on equipment name, installation location, tag ID, inspection item, state, and comment item, as shown in FIG. . Of course, the file may contain other items of information. Information on equipment name, installation location, inspection items, status, and comment items can be recorded by a service person when creating a maintenance inspection report. The serviceman transcribes this information from the paper checklist that he brings with him at the time of maintenance inspection. In addition, the serviceman can fill in each piece of information such as the device name, installation location, and inspection items using the report creation unit 112 before starting the maintenance inspection. In this case, a checklist containing such information may be printed by a printer, which is the output device 17, and brought to the maintenance inspection. The tag ID can be recorded by the report creation unit 112 based on the device information stored in the device information storage unit 122 .

FIG. 6 is a flow chart showing an example of a maintenance and inspection work procedure of a service person who performs maintenance and inspection work on the equipment subject to maintenance and inspection. In FIG. 6, tagging is performed during maintenance and inspection work, but tagging may be performed before departure for maintenance and inspection in an office where a serviceman stands by, or if necessary, Tagging may be performed after maintenance inspection is completed.

The serviceman moves to the installation location of the equipment to be maintained and inspected according to the paper checklist (step S21). Then, the 3D model of the installation location is displayed on the serviceman terminal 2 (step S22). FIG. 7 is a diagram showing a display example of this 3D model.

The serviceman browses the display screen of the displayed 3D model and determines whether or not the equipment to be maintained and inspected has a tag (step S23). That is, the serviceman judges whether or not the tag icon is displayed for the maintenance and inspection target equipment on the display screen.

Here, if there is no tag, the serviceman operates the serviceman terminal 2 to attach a tag (step S24). FIG. 8 is a diagram showing the result of tagging on the display screen of the 3D model of FIG. The tag specifying unit 111 of the server device 1 embeds the tag ID at the specified position in the 3D model of the facility stored in the 3D model storage unit 121, and the facility stored in the device information storage unit 122 is displayed. The tag ID is recorded for the corresponding device in the device information. Then, the display information generation unit 114 of the server device 1 updates the display screen, and as shown in FIG. 8, the tag icon 100 is displayed at the position where the serviceman instructed tagging. It should be noted that the tag icon 100 at this time does not indicate the state of the device because the maintenance and inspection result of the device has not yet been set.

It should be noted that if the tag has been attached in advance, it is determined that the tag is present in step S23. In addition, since the maintenance and inspection target equipment of the maintenance and inspection target equipment for which maintenance and inspection were performed in the past is tagged, the tag icon 100 is displayed, and it is determined that there is a tag. The display form of the tag icon 100 tagged in the past reflects the information of the item in the tag form in the device information stored in the device information storage unit 122 of the server device 1 . The tag icon 100 may, for example, change color and/or shape depending on the information of the item in tag form.

If there are tags for all the equipment to be maintained and inspected on the display screen of the 3D model, the serviceman does not carry out tagging in step S24.

Then, the serviceman inspects the equipment to be maintained and inspected (step S25). Then, the result is recorded in a paper checklist (step S26). Of course, the serviceman operates the serviceman terminal 2 to transmit the inspection result to the server device 1 for each inspection item of the equipment, and the report creation unit 112 of the server device 1 prepares the maintenance and inspection report. It is also possible to record in the storage unit 123 .

When the inspection of one target device for maintenance and inspection is completed, the serviceman confirms the checklist and determines whether or not the inspection of all the target devices for maintenance and inspection is completed (step S27). If there is still equipment to be inspected, the serviceman moves to the installation location of the equipment to be maintained and inspected, and repeats the above operations.

When the inspection of all the equipment to be inspected is completed, the service engineer returns to the office, operates the service engineer terminal 2, and creates a maintenance inspection report using the report creation unit 112 of the server device 1. work is performed (step S28).

9A to 9C are a series of flowcharts showing an example of processing operations performed in the server device 1. FIG. The processor 11A of the server device 1 can perform the processing shown in this flowchart by executing a 3D maintenance inspection report presentation program stored in advance in the program memory 11B, for example.

First, the processor 11A operates as the report creating unit 112 and determines whether or not the communication interface 13 has received a report creating instruction from the serviceman terminal 2 via the network NW (step S101).

If the processor 11A determines that the report creation instruction has not been received, the processor 11A operates as the 3D display designation unit 113 and receives a 3D model display request from the serviceman terminal 2 or the viewer terminal 3 through the communication interface 13 and the network NW. is received (step S102). Note that the 3D model display request is not limited to requesting the display of a 3D model specifying a facility, but includes instructions to update the displayed 3D model, such as changing the height of the line of sight, changing the orientation, and walking around the facility. .

If it is determined that the 3D model display request has not been received, the processor 11A operates as the tag designation unit 111 and determines whether the communication interface 13 has received a tagging instruction from the serviceman terminal 2 via the network NW. It judges (step S103).

When it is determined that the tagging instruction has not been received, the processor 11A operates as the 3D display designation unit 113 and receives the tag selection from the serviceman terminal 2 or the viewer terminal 3 via the network NW by the communication interface 13. (step S104). Tag selection indicates selection of the tag icon 100 or selection of one tag from a plurality of tags displayed as a list. The details of this list of tags will be described later.

When it is determined that the tag selection has not been received, the processor 11A operates as the 3D display designation unit 113 and receives the tag type selection from the serviceman terminal 2 or the viewer terminal 3 via the network NW by the communication interface 13. (step S105). Here, the tag type selection means an instruction to narrow down by the state of the device indicated by the display form of the tag icon 100 .

When determining that the tag type selection has not been received, the processor 11A proceeds to the process of step S101. As described above, the processor 11A waits to receive a report creation instruction, a 3D model display request, a tagging instruction, tag selection, or tag type selection. Note that in the present embodiment, other operations including storage of the 3D model and device information are not directly related to the operation of presenting the 3D maintenance and inspection report, so description thereof will be omitted.

When the processor 11A operating as the report creation unit 112 determines in step S101 that the report creation instruction has been received from the serviceman terminal 2, it operates as the display information generation unit 114 to input the maintenance inspection report. A screen is generated (step S106). For example, the processor 11A reads the maintenance and inspection report information of the facility stored in the maintenance and inspection report storage unit 123 based on the designation of the facility included in the received report creation instruction. Based on this maintenance and inspection report information, the processor 11A generates a maintenance and inspection report entry screen having input fields for items to be entered. Then, the processor 11A transmits the generated maintenance inspection report input screen to the requesting serviceman terminal 2 via the network NW using the communication interface 13 (step S107).

After that, the processor 11A operates as the report creating unit 112 and determines whether or not the communication interface 13 has received the record information indicating the maintenance and inspection result entered in the input field from the serviceman terminal 2 via the network NW. (step S108).

When determining that the recording information has not been received, the processor 11A determines whether or not the communication interface 13 has received a report print instruction from the serviceman terminal 2 via the network NW (step S109).

When determining that the report print instruction has not been received, the processor 11A determines whether or not the communication interface 13 has received an end instruction from the serviceman terminal 2 via the network NW (step S110).

When determining that the end instruction has not been received, the processor 11A proceeds to the process of step S108. As described above, the processor 11A waits for reception of record information, report print instruction, or end instruction.

When the processor 11A operating as the report creation unit 112 determines that the record information has been received from the serviceman terminal 2 in step S108, the record information is stored in the maintenance inspection report storage unit 123. is additionally stored in the maintenance inspection report information (step S111). Here, the processor 11A determines whether the tag ID has been stored for the equipment corresponding to the record information or for all the equipment in the maintenance and inspection report information of the facility stored in the maintenance and inspection report storage unit 123. (Step S112). When determining that the tag ID has been stored, the processor 11A updates the maintenance and inspection report input screen based on the maintenance and inspection report information updated by the received record information (step S113). Then, the processor 11A shifts to the process of step S107, and transmits the updated maintenance inspection report input screen to the requesting serviceman terminal 2 via the communication interface 13 and the network NW. .

If it is determined in step S112 that the tag ID has not been stored, the processor 11A acquires the tag ID from the device information storage unit 122 (step S114). For example, the processor 11A reads the tag ID of the corresponding equipment of the facility whose tag ID is not stored from the equipment information of the facility stored in the equipment information storage unit 122 . Then, the processor 11A additionally stores the acquired tag ID in the maintenance and inspection report information of the facility stored in the maintenance and inspection report storage unit 123 (step S115). After that, the processor 11A proceeds to the process of step S113.

If the processor 11A operating as the report creating unit 112 determines in step S109 that it has received a report print instruction from the serviceman terminal 2, it creates report print information (step S116). Specifically, the processor 11A reads the maintenance and inspection report information of the facility stored in the maintenance and inspection report storage unit 123, and prints each item of the maintenance and inspection report information in accordance with the print format determined for each facility. Extract and arrange to generate report print information for printing on paper. Then, the processor 11A transmits the generated report print information to the requesting serviceman terminal 2 via the network NW using the communication interface 13 (step S117). The serviceman terminal 2 that receives this report print information can print it with a printer, thereby creating a paper maintenance and inspection report to be submitted to the customer of the facility. The processor 11A then proceeds to the process of step S110.

Then, when the processor 11A operating as the report creation unit 112 determines that the termination instruction has been received from the serviceman terminal 2 in step S110, the processor 11A updates the device information stored in the device information storage unit 122. (Step S118). For example, the processor 11A determines the problem state of each maintenance and inspection target equipment of the facility based on the maintenance and inspection report information of the facility stored in the maintenance and inspection report storage unit 123, and responds based on the determination result. Update the tag type of each device in the device information. As described above, the tag form is status information indicating which of a plurality of status stages the equipment status determined by maintenance and inspection is. The processor 11A, for example, regards the tag form as safe for the equipment in which the contents of the status items in the maintenance and inspection report information are all circles. In addition, the processor 11A, for example, regards the tag form as requiring caution for a device whose content of the status item in the maintenance and inspection report information includes a triangle. Then, the processor 11A, for example, if the content of the status item in the maintenance inspection report information contains an X, the tag form is regarded as dangerous. After that, the processor 11A proceeds to the process of step S101.

Further, when the processor 11A operating as the 3D display specifying unit 113 determines in step S102 that the 3D model display request has been received from the serviceman terminal 2 or the viewer terminal 3, the processor 11A operates as the display information generating unit 114. , it is determined whether or not the 3D model has been displayed on the serviceman terminal 2 or the viewer terminal 3 of the request source (step S119). For example, if the received 3D model display request is a new display instruction requesting display of a 3D model specifying a facility, the processor 11A determines that the 3D model has not been displayed. Further, if the received 3D model display request is an instruction to update the displayed 3D model, such as changing the height of the line of sight, changing the orientation, or walking around the facility, the processor 11A determines that the 3D model has already been displayed. do.

When determining that the 3D model has not been displayed, the processor 11A generates 3D model display information, which is a 3D display image, based on the 3D model of the facility stored in the 3D model storage unit 121 (step S120 ).

Further, the processor 11A superimposes a tag icon on the generated 3D model display information based on the device type included in the received 3D model display request (step S121). For example, the processor 11A reads the device information file corresponding to the device type from the device information storage unit 122. FIG. Based on the tag ID in the 3D model corresponding to the generated 3D model display information, the processor 11A confirms the item contents of the tag form of the equipment to be maintained and inspected in the equipment information file, and the tag indicating the tag form. The icon is superimposed on the 3D model display information.

Also, the processor 11A sorts the tags in the read device information file (step S122). For example, the processor 11A sorts the tags according to the tag form for each installation location in the device information file. Then, the processor 11A generates a tag list based on the sorting result (step S123), and superimposes the tag list on the 3D model display information (step S124).

Thus, a display screen is generated in which the tag icons and the tag list are superimposed on the 3D model display information. The processor 11A transmits the generated display screen to the requesting serviceman terminal 2 or viewer terminal 3 via the network NW using the communication interface 13 (step S125). After that, the processor 11A proceeds to the process of step S101.

FIG. 10 shows a display example of a 3D model on the serviceman terminal 2 or viewer terminal 3 that receives a display screen in which a tag icon and a tag list are superimposed on 3D model display information, which is a 3D display image. It is a diagram. On the display screen, a tag icon 100 and a tag list 102 are superimposed on 3D model display information 101, which is a three-dimensional display image. The tag icons 100 are a green smiling face icon corresponding to the "safe" tag type, a yellow confused face icon corresponding to the "caution" tag type, and a red icon corresponding to the "dangerous" tag type. Either a crying face icon or Note that colors are not shown in the drawings due to space limitations. The tag list 102 includes a tag list 103 and a tag type selection button 104 . The list 103 displays a list of the sorted tags by grouping the tag icon and the device name. A tag type selection button 104 is a button for specifying narrowing down of tags to be displayed in the list 103 . The tag type selection buttons 104 include a [safety] button that displays only "safety" tags, a [cautionary (recommended renewal within 1 to 2 years)] button that displays only "caution" tags, and a "dangerous" button. Includes a [Dangerous (update recommended)] button, which displays only the tags in the list, and a [Safe] button, which displays all tags. Further, the tag type selection button 104 includes a [facility general] button for instructing a change from the display for each installation location to the display for the facility as a whole. The display screen can also include a display selection list 105 for instructing switching of the 3D model display information, and a device type selection button 106 for instructing switching of the device type.

Note that when the device type selection button 106 is selected by a tap operation or a mouse button click operation on the serviceman terminal 2 or the viewer terminal 3, the processor 11A creates a 3D model for the selected device type in step S102. It is determined that a new display instruction requesting display has been received.

Further, when determining that the 3D model has been displayed in step S119, the processor 11A updates the 3D model display information (step S126). For example, if the received 3D model display request is a tap operation or a mouse button click operation on the service person terminal 2 or the viewer terminal 3, the displayed 3D model can be changed by changing the height of the line of sight, changing the direction, or walking around the facility. If it is an update instruction, the processor 11A determines that the 3D model has already been displayed in step S119. In this case, the processor 11A changes the viewpoint, line-of-sight direction, and magnification in the same manner as "Street View (registered trademark)" provided by Google (registered trademark) LLC (head office: Google LLC in California, USA). The 3D model display information is updated so as to walk around. Alternatively, even if the received 3D model display request is a switching instruction by tapping an installation location or clicking a mouse button in the display selection list 105 on the serviceman terminal 2 or the viewer terminal 3, the processor 11A In step S119, it is determined that the 3D model has been displayed. In this case, the processor 11A updates the 3D model display information of the selected installation location in step S126. For example, when [Coordination Room] is selected in the display selection list 105 of the display screen shown in FIG. 3D model display information for switching to the display of . Then, the processor 11A shifts to the process of step S125, transmits the updated display screen to the serviceman terminal 2 or the viewer terminal 3 that is the source of the request, and displays it there.

Further, when the processor 11A operating as the tag specifying unit 111 determines that the tagging instruction has been received in step S103, the 3D model of the facility stored in the 3D model storage unit 121 is assigned to the specified A tag is added to the position (step S127). For example, the processor 11A generates an arbitrary tag ID that does not overlap with tag IDs in other device information stored in the device information storage unit 122, and embeds the generated tag ID in the corresponding position of the 3D model. Also, the processor 11A adds the tag ID to the corresponding device in the device information of the corresponding facility stored in the device information storage unit 122 (step S128). At this time, the processor 11A also adds the tag ID to the corresponding device in the device information file of the corresponding facility that has already been read from the device information storage unit 122 and held.

After that, the processor 11A sorts again the tags of the device information file it holds (step S129), and based on the result of sorting, displays the tag list on the display screen created and held for the serviceman terminal 2 that made the request. is updated (step S130). Then, the processor 11A shifts to the process of step S125, transmits the updated display screen to the serviceman terminal 2 or the viewer terminal 3 that is the source of the request, and displays it there.

Further, when the processor 11A operating as the 3D display specifying unit 113 determines that the tag selection has been received in step S104, the processor 11A operates as the display information generating unit 114 to is selected (step S131). For example, the processor 11A determines whether a tag in the list 103 on the display screen of the 3D model on the serviceman terminal 2 or the viewer terminal 3 has been selected, or whether the tag icon 100 displayed for the equipment in the 3D model has been selected. determine whether the

When determining that a tag in the list 103 has not been selected, the processor 11A further determines that the 3D model of the entire facility as shown in FIG. 10 is being displayed on the serviceman terminal 2 or viewer terminal 3. It is determined whether or not there is (step S132). For example, the processor 11A determines whether the tag icon 100 in the overall 3D model has been selected or whether the tag icon 100 displayed for the 3D model equipment for the installation location such as the small hall stage shown in FIG. 8 has been selected. to decide.

If the entire 3D model is not being displayed, that is, if it is determined that the tag icon 100 displayed for the equipment has been selected, the processor 11A will display the maintenance and inspection target equipment corresponding to the selected tag icon 100. Detailed information is generated (step S133). For example, the processor 11A acquires the tag ID corresponding to the selected tag icon 100 from the device information file corresponding to the display screen created and held for the serviceman terminal 2 or the viewer terminal 3 that made the request. , the description content of the comment item in the maintenance and inspection report information stored in the maintenance and inspection report storage unit 123 is acquired from the tag ID. Then, the processor 11A generates detailed information based on the content of the acquired comment item. The processor 11A superimposes the detailed information thus generated on the 3D model display information on the display screen held for the serviceman terminal 2 or the viewer terminal 3 that made the request (step S134). After that, the processor 11A proceeds to step S125, transmits the display screen on which the detailed information is superimposed, to the serviceman terminal 2 or the viewer terminal 3 that made the request, and displays it there.

FIG. 11 is a diagram showing a display example of a 3D model on the serviceman terminal 2 or the viewer terminal 3 that receives a display screen in which a tag icon 100, a tag list 102, and detailed information 107 are superimposed on the 3D model display information 101. is.

If it is determined in step S131 that a tag in the list 103 has been selected, or if it is determined in step S132 that the entire 3D model is being displayed, that is, the tag icon 100 in the entire 3D model has been selected, the processor 11A updates the 3D model display information based on the tag ID of the corresponding tag (step S135). For example, the processor 11A determines the installation location of the corresponding maintenance/inspection target equipment based on the tag ID in the equipment information file held for the display screen of the serviceman terminal 2 or the viewer terminal 3 that made the request, and displays it on the display screen. is switched to the 3D model display information of the 3D model of the installation location. After that, the processor 11A proceeds to the process of step S133 and generates detailed information.

Further, when the processor 11A operating as the 3D display specifying unit 113 determines that the tag type selection has been received in step S105, it operates as the display information generating unit 114 and narrows down the tags according to the selected tag type. (step S136). For example, the processor 11A selects the tag type selection button 104 of the tag list 102 on the display screen of the 3D model on the serviceman terminal 2 or the viewer terminal 3. narrow down to After that, the processor 11A shifts to the process of step S130 and updates the tag list 102 superimposed on the 3D model display information, that is, narrows down the list 103 in the tag list 102. FIG.

FIG. 12 is a diagram showing a display example of a 3D model on the serviceman terminal 2 or the viewer terminal 3 that receives a display screen in which a tag icon 100, a tag list 102, and detailed information 107 are superimposed on the 3D model display information 101. is. This example shows a case where list 103 in tag list 102 is narrowed down to tags of "dangerous" and tag selection is performed.

In this embodiment, the server device 1 as the maintenance and inspection result presentation device uses the report creation unit 112, which is the input unit, to display the results of the maintenance and inspection performed on the maintenance and inspection target equipment deployed in the facility, as described above. The input maintenance and inspection results are stored in the maintenance and inspection report storage unit 123, which is a maintenance and inspection information storage unit, and the stored maintenance and inspection results are stored by the display information generation unit 114, which is a screen generation unit. based on, on the 3D model display information 101, which is a three-dimensional display image of the facility, a display screen is generated in which the results of maintenance and inspection performed on the equipment to be maintained and inspected are superimposed, and the generated display screen is displayed externally, for example Send to the viewer terminal 3 . This allows an external viewer to grasp the location and shape of the equipment placed in the facility from the 3D viewpoint. Therefore, it becomes possible to easily grasp the maintenance and inspection results of the equipment. As a result, when a customer of a facility proposes repair of equipment to a municipality that has the priority and budget for the repair plan, the need for repair of the equipment can be easily communicated.

In addition, in the present embodiment, the report creation unit 112 inputs maintenance and inspection report information related to a maintenance and inspection report describing the results of maintenance and inspection, including comments, for example. The maintenance inspection report storage unit 123 stores the information, and the display information generation unit 114 generates the display screen based on the maintenance inspection report information stored in the maintenance inspection report storage unit 123 . As a result, just by creating a maintenance and inspection report, a display screen reflecting the results of maintenance and inspection can be viewed on an external viewer terminal 3, for example.

In addition, in this embodiment, the server device 1 further functions as a maintenance and inspection information storage unit so that the device status of the maintenance and inspection target device determined by the maintenance and inspection is classified into a plurality of status stages such as, for example, safe, caution required, and dangerous. Equipped with a device information storage unit 122 that stores a tag form that is state information indicating which one, based on the maintenance inspection report information stored in the maintenance inspection report storage unit 123 by the report creation unit 112, The state of the equipment to be maintained and inspected is determined, and the tag form of the equipment information storage unit 122 is updated according to the result of the determination. In addition, based on the state information stored in the device information storage unit 122, the display information generation unit 114 displays the results of the maintenance and inspection of the equipment subject to maintenance and inspection as a tag icon 100 indicating the state stage of the equipment subject to maintenance and inspection. It is superimposed on the 3D model display information 101 . The tag icon 100 can change colors, for example green, yellow, red, depending on the status stage. Of course, the combination of colors is not limited to this. Also, the tag icon 100 can change its shape, for example, into a smiling face, a confused face, or a crying face, depending on the status stage. The shape is not limited to this combination either. Furthermore, the display form of the tag icon 100 may change both such color and shape. By changing the display form of the tag icon 100 according to the state stage in this way, it is possible to grasp the state of the device in question simply by looking at the tag icon 100. Furthermore, problems discovered during maintenance and inspection can be realized. You will be able to instantly identify your device.

Further, in the present embodiment, a plurality of maintenance and inspection target equipment are deployed in the facility, and the display information generation unit 114 further displays the maintenance and inspection target equipment according to the status information based on the status information stored in the equipment information storage unit 122. A list sorted in the order of stages is created, and the created list 103 is superimposed on the 3D model display information 101 . Therefore, since the devices in the state stage in which the problems discovered by the maintenance inspection are important can be sorted so that they are lined up at the top of the list 103, it is possible to easily determine the devices whose problems need to be solved. become able to.

Further, in this embodiment, the display information generation unit 114 further superimposes a tag type selection button 104 for selecting a state stage on the 3D model display information 101, and allows tag type selection from an external viewer terminal 3, for example. In response to receiving the selection result of the button 104, the list 103 superimposed on the 3D model display information 101 is updated so as to include only the maintenance and inspection target equipment in the state stage indicated by the selection result. Therefore, since it is possible to narrow down by the status stages of the devices, it is possible to easily grasp which device is in each status stage.

In addition, in this embodiment, the display information generation unit 114 includes the entire facility in addition to the display screen in which the maintenance inspection result is superimposed on the 3D model display information 101 of the partial three-dimensional display image of the specific position in the facility. A display screen is generated in which maintenance and inspection results are superimposed on the 3D model display information 101 of the overall three-dimensional display image. As a result, it is possible to obtain a bird's-eye view of where in the facility each device that has undergone maintenance and inspection is deployed, and furthermore, the deployment position of the device in which a problem has been discovered.

Further, in this embodiment, as described above, the report creation unit 112 of the server device 1 reads the maintenance and inspection report information of the facility stored in the maintenance and inspection report storage unit 123, and determines for each facility. Each item of the maintenance inspection report information is extracted and arranged according to the print format, and report print information for printing on paper is generated and transmitted to the serviceman terminal 2 . As a result, the serviceman terminal 2 that has received the report print information can print it on a printer, thereby creating a paper maintenance and inspection report to be submitted to the customer of the facility.

Further, in the present embodiment, as described above, the maintenance and inspection report information stored in the maintenance and inspection report storage unit 123 includes comment information about the state of the maintenance and inspection target equipment, and the display information generation unit 114 For example, when the tag icon 100 is selected on the external viewer terminal 3, the comment information in the maintenance and inspection report information stored in the maintenance and inspection report storage unit 123 is read out and displayed as detailed information 107 on the 3D model display information 101. superimpose. This makes it possible to easily grasp the details of the device status.

Further, in the present embodiment, as described above, the display information generation unit 114 generates the tags in the list 103 or the tags of the 3D model display information 101 of the entire facility including the entire facility in the external viewer terminal 3, for example. When the icon 100 is selected, it switches to the 3D model display information 101 of the installation location portion where the maintenance and inspection target equipment corresponding to the selected tag or tag icon 100 is deployed, and detailed information is displayed on the 3D model display information 101. 107 is superimposed. As a result, detailed information can be displayed as a display that makes it easier to understand what the device is. Therefore, when the customer of the facility communicates the need for equipment repair to the municipality that has the priority order and budget for the repair plan, for example, the equipment and detailed information can be cut out and displayed on the viewer terminal 3. and helps to make the communication partner understand the need.

(Second embodiment)
The second embodiment will be described below. In the following second embodiment, only changed parts from the first embodiment will be explained, and the explanation of the same parts as the first embodiment will be omitted.

FIG. 13 is a schematic configuration diagram showing an example of a maintenance inspection result presentation system according to the second embodiment. In the second embodiment, in addition to the configuration of the first embodiment, each of the maintenance and inspection target equipment 4 installed in the facility is connected to the server device 1 via the network NW. In FIG. 13 , one maintenance and inspection target device 4 is shown as a representative, and the maintenance and inspection result presentation system includes a plurality of maintenance and inspection target devices 4 .

FIG. 14 is a block diagram showing an example of a functional configuration of the server device 1 as a maintenance inspection result presentation device according to the second embodiment. In the second embodiment, the processing unit 11 includes a device status acquisition unit 115 as a software processing function unit in addition to the configuration of the first embodiment. The equipment status acquisition unit 115 acquires information such as the usage time of the maintenance and inspection target equipment 4 via the network NW using the communication interface 13, and stores the acquired information such as the usage time as corresponding equipment information in the equipment information storage unit 122. Items such as file usage time are recorded.

FIG. 15 is a diagram showing part of a flowchart showing an example of processing operations performed in the server device 1 according to the second embodiment. Note that the processor 11A operates as the device status acquisition unit 115, and in parallel with the processing operations shown in FIGS. 9A to 9C and this FIG. Information such as usage time is acquired and recorded in the corresponding device information file of the device information storage unit 122 .

In this embodiment, when the processor 11A operating as the 3D display designation unit 113 determines in step S105 in the first embodiment that the tag type selection has not been received, the device status acquisition unit 115 , and determines whether or not there is a device with a tag type of "safe" that is "caution required" (step S151). For example, the processor 11A refers to each device information file stored in the device information storage unit 122 and searches for a device whose usage time exceeds a prescribed caution threshold. A prescribed caution threshold can be recorded for each device in the device information file. Alternatively, a file summarizing caution thresholds for each device may be separately prepared and stored in the device information storage unit 122, or the communication interface 13 may access the device manufacturer's site via the network NW. It is also possible to obtain

If it is determined that there is no device with a tag type of “safety” that is “caution required”, the processor 11A operates as the device status acquisition unit 115 to (step S152). For example, the processor 11A refers to each device information file stored in the device information storage unit 122 and searches for a device whose usage time exceeds a prescribed risk threshold. As with the caution threshold, the prescribed risk threshold may be recorded in the device information file for each device, or a file summarizing the risk thresholds for each device may be stored in the device information storage unit 122. You may store it, or you may acquire it from the site of the device manufacturer.

If it is determined that there is no device with a tag type of “caution required” that is “dangerous”, the processor 11</b>A operates as the 3D display designation unit 113 , and the communication interface 13 communicates with the serviceman via the network NW. It is determined whether or not a link selection has been received from terminal 2 or viewer terminal 3 (step S153). In this embodiment, a link to the usage time is embedded in the detailed information 107 displayed on the display screen, and when this link is selected on the serviceman terminal 2 or the viewer terminal 3, the link selection is transmitted . When determining that the link selection has not been received, the processor 11A proceeds to the process of step S101.

If the processor 11A operating as the device status acquisition unit 115 determines in step S151 that there is a device with a tag type of “safe” that is “caution required”, it stores the information in the device information storage unit 122. The content of the tag form item in the applicable device in the applicable device information file is updated (step S154). In this case, the processor 11A rewrites the information of the tag form item of the device that becomes "caution required" from "safety" to "caution required". After that, the processor 11A proceeds to the process of step S101.

Further, when the processor 11A operating as the device status acquisition unit 115 determines in step S152 that there is a device with a tag type of "needs caution" that is "dangerous", the processing of step S154 is performed. , and the content of the tag form item for the corresponding device in the corresponding device information file stored in the device information storage unit 122 is updated. In this case, the processor 11A rewrites the information of the tag type item of the equipment that is "dangerous" from "caution required" to "dangerous".

Further, when the processor 11A operating as the 3D display specifying unit 113 determines that the link selection has been received in step S153, the processor 11A operates as the display information generating unit 114 and the information stored in the device information storage unit 122 From the equipment information file of the corresponding facility, the usage time information of the corresponding equipment is read (step S155). Then, the processor 11A sends the detailed information on the display screen created and held to the serviceman terminal 2 or the viewer terminal 3, which is the source of the request, so that the read usage time information is displayed at the link position of the detailed information. Update (step S156). After that, the processor 11A shifts to the process of step S125, transmits the display screen with the updated detailed information to the serviceman terminal 2 or the viewer terminal 3 that made the request, and displays it there.

Although the information of the tag form item is updated based on the usage time information here, the device status may be determined based on other information acquired from the maintenance and inspection target device 4 and updated. Good things, of course.

In this embodiment, the server device 1 can operate in the same manner as in the first embodiment. Furthermore, in the present embodiment, the server apparatus 1 acquires usage time information indicating the usage time of the maintenance and inspection target equipment 4, as described above, and stores the usage time information in the equipment information storage unit 122 based on the usage time information. It further includes a device status acquisition unit 115 that updates the received status information. Therefore, it is possible to automatically observe the maintenance and inspection of the maintenance and inspection target equipment 4 .

Further, in this embodiment, as described above, a link to the usage time is embedded in the detailed information 107 displayed on the display screen, and the usage time is displayed when this link is selected. As a result, when the customer of the facility communicates the necessity of repairing the equipment to the municipality that has the priority of the repair plan and the budget, for example, the viewer terminal 3 can display the actual usage time of the equipment. and helps to make the communication partner understand the need.

(Third Embodiment)
The third embodiment will be described below. In addition, in the following third embodiment, only the changed parts from the first embodiment will be explained, and the explanation of the same parts as the first embodiment will be omitted.

FIG. 16 is a block diagram showing an example of a functional configuration of the server device 1 as a maintenance inspection result presentation device according to the third embodiment. In the third embodiment, the tag specifying unit 111 as a processing function unit by software of the processing unit 11 can also cause the maintenance inspection report storage unit 123 of the data memory 12 to store information. is configured to The operation of this tag designation unit 111 is different from that of the first embodiment. The device information stored in the device information storage unit 122 of the data memory 12 is also different from that of the first embodiment.

FIG. 17 is a diagram schematically showing an example of device information stored in the device information storage unit 122 in this embodiment. The device information storage unit 122 can further store comments in the table format device information file as in the first embodiment shown in FIG. That is, the device information file stored in the device information storage unit 122 includes, for example, information on the items of device name, installation location, delivery date, tag ID, tag format, and comment, as shown in FIG. In this embodiment, the information of the comment item can be recorded by the service person during the maintenance inspection, as will be described later in detail.

FIG. 18 is a flow chart showing an example of a maintenance and inspection work procedure of a service person who performs maintenance and inspection work on the equipment to be maintained and inspected.

The serviceman moves to the installation location of the equipment to be maintained and inspected according to the paper checklist (step S21). Before starting the maintenance and inspection, the service person sends each piece of information such as the device name, installation location, and inspection items to the maintenance and inspection report storage unit 123 from the service person terminal 2 using the report creation unit 112 of the server device 1. can be entered. Then, the serviceman prints out a checklist containing such information using a printer, which is the output device 17, and brings it to the maintenance inspection.

The serviceman who has moved to the installation location of the maintenance and inspection target equipment inspects the maintenance and inspection target equipment (step S25). When the inspection of one equipment subject to maintenance and inspection is completed, the result is recorded in a paper checklist (step S26).

Also, the serviceman causes the serviceman terminal 2 to display the 3D model of the installation location (step S22). FIG. 19 is a diagram showing a display example of this 3D model. When the serviceman moves to the installation location of the equipment to be maintained and inspected, the serviceman may display a 3D model on the serviceman terminal 2 and move while confirming the installation position of the equipment to be maintained and inspected. In that case, this step can be omitted. Even if the 3D model is displayed on the serviceman terminal 2 while moving, the display may be stopped during the actual inspection work in order to save power. In this step, the serviceman terminal 2 is caused to display the 3D model again.

As shown in FIG. 19, the 3D model displayed on the serviceman terminal 2 includes an [Edit] button 108 . By selecting this [edit] button 108 by a tap operation or a mouse button click operation, the service person can communicate with the server device 1 and carry out maintenance and inspection information editing work (step S29). The work of editing the maintenance and inspection information is the work of inputting maintenance and inspection information indicating the result of the maintenance and inspection and adding the tag icon 100 on the display screen of the displayed 3D model. The details of this maintenance and inspection information editing work will be explained together with the explanation of the operation of the server device 1 . Note that the [Edit] button 108 is displayed in the 3D model on the serviceman terminal 2 of the serviceman who has been authenticated as having editing authority at the time of login to the server device 1, but is displayed on the 3D model of the viewer who does not have editing authority. The 3D model on the viewer terminal 3 is not displayed.

When the work of editing the maintenance and inspection information is completed, the serviceman confirms the checklist and determines whether or not inspection of all the equipment subject to maintenance and inspection has been completed (step S27). If there is still equipment to be inspected, the serviceman moves to the installation location of the equipment to be maintained and inspected, and repeats the above operations.

When the inspection of all the equipment to be inspected is completed, the service engineer returns to the office, operates the service engineer terminal 2, and creates a maintenance inspection report using the report creation unit 112 of the server device 1. work is performed (step S28).

20A and 20B are diagrams showing a part of a series of flowcharts showing an example of processing operations executed in the server device 1 according to the third embodiment, which are different from the processing operations of the first embodiment. When it is determined that the 3D model display request has not been received in step S102 as described in the first embodiment, the processor 11A operates as the tag designation unit 111 in this embodiment, and the communication interface 13 determines whether or not an edit request has been received from the serviceman terminal 2 via the network NW (step S1001). The edit request is transmitted from the serviceman terminal 2 in response to the selection operation of the [Edit] button 108 on the serviceman terminal 2 . If it is determined that the editing request has not been received, the processor 11A proceeds to the process of step S103 and determines whether or not the tagging instruction has been received.

When determining that an edit request has been received, the processor 11A operates as the display information generation unit 114, generates an edit screen, and transmits the edit screen to the requesting serviceman terminal 2 via the communication interface 13 and the network NW. The generated edit screen is transmitted (step S1002).

FIG. 21 is a diagram showing a display example of the serviceman terminal 2 that has received this editing screen. The edit screen is obtained by adding an edit menu 109 next to the 3D model display information 101, which is a three-dimensional display image. The edit menu 109 includes a plurality of edit buttons for instructing various editing operations such as blurring and trimming. One of the edit buttons is a tag add button 110 for instructing tag addition.

After that, the processor 11A operates as the tag designation unit 111 again and determines whether or not the communication interface 13 has received a tag addition instruction from the serviceman terminal 2 via the network NW (step S1003). For example, the serviceman terminal 2 transmits a tag addition instruction to the server device 1 in response to designation of the addition position, that is, the position where the tag icon 100 is to be arranged, following the selection operation of the tag addition button 110 on the editing screen. This position can be specified by, for example, selecting an arbitrary position by a tap operation or a mouse button click operation after selecting the tag addition button 110 . Also, the position may be designated by a drag-and-drop operation of the tag addition button 110 .

When determining that the tagging instruction has been received, the processor 11A attaches a tag to the 3D model of the facility stored in the 3D model storage unit 121 at the specified position, as described in the first embodiment. Add (step S127). Also, the processor 11A adds the tag ID to the corresponding device in the device information of the corresponding facility stored in the device information storage unit 122 (step S128).

After that, the processor 11A operates as the display information generation unit 114 and generates a tag information input screen (step S1004). Although not shown, this tag information input screen displays a tag icon 100 that does not indicate the state of the equipment at the position where the 3D model serviceman instructed to add a tag, and also indicates the results of maintenance and inspection work in the vicinity. An input field for entering a comment is displayed. Then, the processor 11A transmits the generated tag information input screen to the serviceman terminal 2 that requested editing via the network NW using the communication interface 13 (step S1005).

The processor 11A operates as the tag specifying unit 111 and determines whether or not the comment input on the tag information input screen is received from the serviceman terminal 2 via the network NW by the communication interface 13 (step S1006). .

When determining that the comment has not been received, the processor 11A determines whether or not the tag form has been received from the serviceman terminal 2 via the network NW by the communication interface 13 (step S1007). For example, at the serviceman terminal 2, by selecting and operating a tag icon 100 that does not indicate the state of the equipment on the tag information input screen, it is possible to select what kind of tag form to use. Then, the tag form is transmitted from the serviceman terminal 2 to the server device 1 .

When determining that the tag form has not been received, the processor 11A determines whether or not a termination instruction has been received from the serviceman terminal 2 via the network NW through the communication interface 13 (step S108).

When determining that the end instruction has not been received, the processor 11A proceeds to the process of step S106. As described above, processor 11A waits to receive a comment, tag form, or end indication.

When the processor 11A operating as the tag specifying unit 111 determines that a comment has been received from the serviceman terminal 2 in step S1006, it stores the comment in the device information storage unit 122 and the maintenance inspection report storage unit 123. (Step S1009). Specifically, the processor 11A stores the comment as information of the item of the comment about the maintenance and inspection target equipment at the corresponding position in the equipment information file of the facility stored in the equipment information storage unit 122 . In addition, the processor 11A stores the comment as information of the comment item in the maintenance and inspection report information of the facility stored in the maintenance and inspection report storage unit 123 .

After that, the processor 11A operates as the display information generation unit 114, and receives the display in the input field for writing the comment on the tag information input screen based on the device information updated by the received comment. The comment is updated (step S1010). Then, the processor 11A shifts to the processing of step S1005, and transmits the updated tag information input screen to the serviceman terminal 2 that is the source of the request via the network NW by the communication interface 13. FIG.

When the processor 11A operating as the tag specifying unit 111 determines that the tag form has been received in step S1007, it stores the tag form in the device information storage unit 122 (step S1011). Specifically, the processor 11A stores the received tag form as information of the item of the tag form regarding the equipment subject to maintenance and inspection at the corresponding position in the equipment information file of the facility stored in the equipment information storage unit 122. Let

After that, the processor 11A proceeds to step S1010, operates as the display information generation unit 114, and updates the tag information input screen. In this case, the processor 11A updates the corresponding tag icon 100 on the tag information input screen to match the received tag form based on the device information updated by the received tag form.

Then, when the processor 11A operating as the tag designating unit 111 determines in step S1008 that the termination instruction has been received from the serviceman terminal 2, the processor 11A proceeds to the processing of step S129 as described in the first embodiment. Migrating will cause the tags to be re-sorted.

Further, when the processor 11A operating as the tag specifying unit 111 determines that the tag addition instruction has not been received in step S1003, the communication interface 13 receives the tag editing instruction from the serviceman terminal 2 via the network NW. It is determined whether or not it has been received (step S1012). For example, when a tag icon 100 is selected on the edit screen, the serviceman terminal 2 transmits a tag edit instruction for the tag icon 100 to the server device 1 .

When determining that the tag editing instruction has been received, the processor 11A shifts to the process of step S1004 and generates a tag information input screen. In this case, the tag icon 100 on the tag information input screen displays the device status or does not indicate the device status based on the device information already stored in the device information storage unit 122 . Similarly, in the input field for entering a comment indicating the result of maintenance and inspection work on the tag information input screen in this case, some comment is displayed based on the device information already stored in the device information storage unit 122. or blank display. The tag icon 100 indicating the status of the device can be updated by the process of step S1011. Similarly, the entry field displaying some comment can be updated by the process of step S1009 above.

Further, when the processor 11A operating as the tag specifying unit 111 determines in step S1012 that the tag editing instruction has not been received, it executes other editing processing according to the other editing button operation of the editing menu 109. (Step S1013). The other edit processing operations are not directly related to the operation of presenting the 3D maintenance inspection report, so description thereof will be omitted.

In this embodiment, the server device 1 inputs the results of maintenance and inspection performed on the maintenance and inspection target equipment deployed in the facility through the tag specifying unit 111, which is the input unit, and stores the equipment information, which is the maintenance and inspection information storage unit. The input maintenance and inspection results are stored in the unit 122, and a 3D model display, which is a three-dimensional display image of the facility, is displayed by the display information generation unit 114, which is a screen generation unit, based on the stored maintenance and inspection results. A display screen is generated by superimposing the results of maintenance and inspection performed on the equipment to be maintained and inspected on the information 101 , and the generated display screen is transmitted to the outside, for example, the viewer terminal 3 . As a result, as in the first embodiment, an external viewer can grasp the location and shape of the equipment placed in the facility from the 3D viewpoint. Therefore, it becomes possible to easily grasp the maintenance and inspection results of the equipment. As a result, when a customer of a facility proposes repair of equipment to a municipality that has the priority and budget for the repair plan, the need for repair of the equipment can be easily communicated.

In addition, in this embodiment, the device information storage unit 122 stores the tag form, which is the state information indicating which of the plurality of state stages the device state of the maintenance and inspection target device determined by the maintenance and inspection is. By inputting state information on the 3D model display information 101 of the facility by the tag designation unit 111 which is an information input unit, the display information generation unit 114 generates information based on the state information stored in the equipment information storage unit 122. , the results of maintenance and inspection of the equipment subject to maintenance and inspection are superimposed on the 3D model display information 101 as tag icons 100 indicating the status stages of the equipment subject to maintenance and inspection. Therefore, just by looking at the tag icon 100, the state of the device can be grasped, and the device for which a problem has been found by maintenance and inspection can be instantly determined.

Further, in this embodiment, the tag specifying unit 111 specifies the position where the tag icon 100 on the 3D model display information 101 should be superimposed from an external terminal, for example, the serviceman terminal 2 of a serviceman who performs maintenance and inspection, An input of the status stage of the maintenance and inspection target equipment corresponding to the position is accepted. Therefore, since the results of maintenance and inspection can be input on the 3D model display information 101 of the facility, the serviceman can immediately input the results of the maintenance and inspection work on the spot.

In the present embodiment, the report creation unit 112, which is the input unit, inputs maintenance and inspection report information related to the maintenance and inspection report describing the results of the maintenance and inspection, and the maintenance and inspection report, which is the maintenance and inspection information storage unit. The maintenance and inspection report information is stored in the document storage unit 123, and the input of comments related to the results of the maintenance and inspection of the equipment subject to maintenance and inspection is further received by the tag designation unit 111, and the received comments are stored in the equipment information storage unit. 122 is stored in association with the state information, and is added to the maintenance and inspection report information of the maintenance and inspection report storage unit 123 . Therefore, when the serviceman prepares the maintenance inspection report, there is no need to re-enter the items that have already been entered, and the serviceman's labor can be saved.

Although it has been described that the serviceman uses a paper checklist when performing maintenance and inspection work, the checklist is not limited to paper, and may be displayed on an external terminal such as the serviceman terminal 2 . In this case, the recording of the maintenance and inspection results in the checklist can also be input by the serviceman terminal 2 at the maintenance and inspection site. Then, the input information is passed to the report creation unit 112 of the server device 1 and stored in the maintenance inspection report storage unit 123, thereby reducing the work amount of the work for creating the report in step S28. can be made

In the third embodiment, as in the second embodiment, the device status acquisition unit 115 may be added to automatically monitor maintenance and inspection of the maintenance and inspection target device 4. Good things, of course.

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

DESCRIPTION OF SYMBOLS 1... Server apparatus 2... Serviceman terminal 3... Viewer terminal 4... Equipment for maintenance inspection 11... Processing part 11A... Processor 11B... Program memory 12... Data memory 13... Communication interface 14... Input Output interface 15 Bus 16 Input device 17 Output device 100 Tag icon 101 3D model display information 102 Tag list 103 List list 104 Tag type selection button 105 Display selection List, 106... Device type selection button, 107... Detailed information, 108... [Edit] button, 109... Edit menu, 110... Tag addition button, 111... Tag designation part, 112... Report creation part, 113... 3D display designation Unit 114 Display information generation unit 115 Equipment status acquisition unit 121 3D model storage unit 122 Equipment information storage unit 123 Maintenance inspection report storage unit NW Network.

Claims (10)

an input unit for inputting results of maintenance and inspections performed on a plurality of maintenance and inspection target devices deployed in the facility;
a maintenance and inspection information storage unit that stores the input result of the maintenance and inspection;
generating a display screen in which the results of the maintenance and inspection performed for the equipment subject to maintenance and inspection are superimposed on the three-dimensional display image of the facility, based on the stored results of the maintenance and inspection; a screen generator that transmits the screen to the outside;
with
The screen generation unit generates a list of the status stages of the maintenance and inspection target equipment based on status information indicating which of a plurality of status stages the equipment status of the maintenance and inspection target equipment determined by the maintenance and inspection is. and superimpose the created list on the three-dimensional display image
Maintenance inspection result presentation device. The input unit includes a report creation unit that inputs maintenance and inspection report information related to a maintenance and inspection report describing the results of the maintenance and inspection,
The maintenance and inspection information storage unit includes a maintenance and inspection report storage unit that stores the maintenance and inspection report information,
2. The maintenance and inspection result presentation device according to claim 1, wherein the screen generation unit generates the display screen based on the stored maintenance and inspection report information. The maintenance and inspection information storage unit further includes a device information storage unit that stores the state information ,
The report creation unit determines the device state of the maintenance and inspection target device based on the stored maintenance and inspection report information, and updates the state information in the device information storage unit according to the determination result. ,
Based on the stored state information, the screen generation unit displays the results of the maintenance and inspection of the equipment subject to maintenance and inspection on the three-dimensional display image as icons indicating status stages of the equipment subject to maintenance and inspection. 3. The maintenance inspection result presentation device according to claim 2, which is superimposed. The maintenance and inspection information storage unit includes a device information storage unit that stores the state information ,
the input unit includes a state information input unit for inputting the state information on the three-dimensional display image of the facility;
Based on the stored state information, the screen generation unit displays the results of the maintenance and inspection of the equipment subject to maintenance and inspection on the three-dimensional display image as icons indicating status stages of the equipment subject to maintenance and inspection. 2. The maintenance inspection result presentation device according to claim 1, which is superimposed. 5. The state information input unit receives from an external terminal a designation of a position where the icon is to be superimposed on the three-dimensional display image and an input of the state stage of the maintenance and inspection target equipment corresponding to the position. Maintenance inspection result presentation device described. The input unit further includes a report creation unit that inputs maintenance and inspection report information related to the maintenance and inspection report describing the results of the maintenance and inspection,
The maintenance and inspection information storage unit further includes a maintenance and inspection report storage unit that stores the maintenance and inspection report information,
The state information input unit
further accepting input of comments related to the results of maintenance and inspection of the equipment subject to maintenance and inspection;
6. The maintenance and inspection result presentation device according to claim 5, wherein the received comment is stored in the equipment information storage section in association with the state information and added to the maintenance and inspection report information in the maintenance and inspection report storage section. . The screen generation unit further
superimposing a selection button for selecting the state stage on the three-dimensional display image;
Updating the list superimposed on the three-dimensional display image so as to include only equipment subject to maintenance and inspection in the state stage indicated by the selection result in response to receiving the selection result of the selection button from the outside. Item 1. The maintenance inspection result presentation device according to item 1 . In addition to the display screen in which the result of the maintenance inspection is superimposed on a partial three-dimensional display image of a specific position in the facility, the screen generation unit displays the maintenance inspection result on the entire three-dimensional display image including the entire facility. 8. The maintenance inspection result presentation device according to any one of claims 1 to 7 , which generates a display screen on which inspection results are superimposed. The maintenance and inspection information storage unit includes a device information storage unit that stores state information indicating which of a plurality of state stages the device state of the maintenance and inspection target device determined by the maintenance and inspection is,
2. The device according to claim 1, further comprising an acquisition unit that acquires usage time information indicating the usage time of the equipment to be maintained and inspected, and updates the state information stored in the equipment information storage unit based on the usage time information. Maintenance inspection result presentation device. The screen generation unit sorts and creates the list by sorting the plurality of maintenance and inspection target devices in the order of the state stages.
The maintenance inspection result presentation device according to any one of claims 1 to 9.

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