JP2020095493A - Facility inspection support program, facility inspection support method, and facility inspection support system - Google Patents

Abstract

To provide a facility inspection support program, a facility inspection support method, and a facility inspection support system which can reduce error upon inspection work.SOLUTION: A facility inspection support program according to the present invention executes a screen generating processing (S13) for reading inspection items linked to an inspection target facility from a database used by a server apparatus to generate a work screen including at least instructions of work process and an input space for the inspection result, an inspection result reception processing (S16, S17) for receiving an inspection result in the input space to store it in the database, a work completion determining processing (S23 - S26) for recording completion of the inspection work in response to the fact that upon completion of the inspection work, completion report images indicating completion of completing works set for each of devices forming the inspection target facility are all input in a predetermined order. If the input processing for the input space is commenced during the work completion determination processing, then a worker is prompted to input the completion report images in the predetermined order from the beginning. (S24).SELECTED DRAWING: Figure 7

Description

The present invention relates to an equipment inspection support program, an equipment inspection support method, and an equipment inspection support system, for example, equipment inspection that supports the work of a worker who inspects equipment such as photovoltaic power generation equipment that requires a prescribed inspection. The present invention relates to a support program, a facility inspection support method, and a facility inspection support system.

In recent years, the installation and use of solar power generation facilities have expanded. These solar power generation facilities are required to maintain high power generation efficiency. Therefore, Patent Document 1 discloses a technique for evaluating the own power generation facility by comparing the power generation information of another power generation facility with the power generation facility.

For example, the monitoring server described in Patent Document 1 is a monitoring server that monitors solar power generation, and the power generation facility identification information for individually identifying a plurality of power generation facilities having a plurality of solar cell modules is the power generation facility. A storage device that is stored in association with area identification information that identifies the area in which is installed; target information acquisition means that acquires power generation information of a target power generation facility that is one power generation facility; and power generation facility of the target power generation facility Comparison information acquisition means for acquiring power generation information of comparative power generation equipment, which is another power generation equipment installed in the same area as the area identified by the area identification information associated with the identification information, and acquired by the target information acquisition means. An evaluation for evaluating the power generation state of the target power generation facility based on the target information that is the power generation information of the target power generation facility and the comparison information that is the power generation information of the comparative power generation facility acquired by the comparison information acquisition means. And means.

JP, 2008-101290, A

However, of the photovoltaic power generation facilities, those that have a certain power generation capacity or more are required to carry out regular inspections prescribed by the courts. This inspection is performed by the worker, but there is a problem that the equipment does not operate normally and the power generation efficiency is reduced due to an error of the worker. In Patent Document 1, an abnormality in the equipment can be found by reinspecting the equipment after the power generation efficiency has decreased, but there is a problem that mistakes in the inspection work cannot be reduced.

The present invention has been made in view of the above circumstances, and an object of the present invention is to reduce work mistakes during equipment inspection.

One aspect of the facility inspection support program according to the present invention is executed by a server device having a communication interface, and a worker who performs a facility inspection displays a work screen including a work procedure instruction and an inspection result input field. Is a facility inspection support program for presenting the inspection result to a work terminal owned by, and reading out the inspection item associated with the inspection target facility from the database used by the server device and instructing the work procedure and Screen generation processing for generating a work screen including at least an inspection result input field, inspection result reception processing for receiving the input result in the input field and storing it in the database, and inspection work for the inspection target equipment Upon completion, the inspection work is completed in response to the completion report image indicating that the completion work set for each device constituting the inspection target equipment has been completed in the preset order. Performing a work completion determination process for recording the fact that the input of the completion report image is performed in the preset order when the input process to the input field occurs during the work completion determination process. To allow the operator to input again.

One aspect of the equipment inspection support method according to the present invention is to present a work screen including an instruction of a work procedure and an input field of an inspection result to a work terminal possessed by a worker who performs equipment inspection, and through the work terminal. An inspection support method in an equipment inspection support system that saves inspection results in a server device by reading out the inspection items linked to the inspection target device from the database and displaying the instruction of the work procedure and the input column of the inspection result. A device that constitutes the inspection target equipment when generating a work screen including at least the input result in the input field at the server device, storing it in the database and ending the inspection work for the inspection target equipment Completion report image showing that the completion work set for each is completed, in response to all the input in a preset order, perform the work completion determination process to record the completion of the inspection work, When the input process to the input field occurs during the work completion determination process, the worker is made to input the completion report image again from the beginning of the preset order.

One aspect of an equipment inspection support system according to the present invention is a server device that generates a work screen including a work procedure instruction and an inspection result input field and saves the inspection result; A work terminal for displaying a screen, and an equipment inspection support system comprising: in the server device, an inspection item associated with the equipment to be inspected is read from a database used by the server device, and an instruction of the work procedure is given. A screen generation process for generating a work screen including at least the inspection result input field, an inspection result reception process for receiving an input result to the input field from the work terminal and storing it in the database, and the inspection target Upon completion of the inspection work on the equipment, a completion report image indicating that the completion work set for each device constituting the inspection target equipment is completed is received in accordance with the fact that all of them are input in a preset order. , A work completion determination process of recording the completion of the inspection work is performed, and the input of the completion report image is preset when the input process to the input field occurs during the work completion determination process. The operator is made to input again from the beginning of the sequence.

According to the equipment inspection support program, the equipment inspection support method, and the equipment inspection support system according to the present invention, it is possible to reduce mistakes made by workers during equipment inspection.

1 is a block diagram of an equipment inspection support system according to a first embodiment. FIG. 3 is a diagram illustrating a relationship between users of the equipment inspection support system according to the first embodiment. It is a block diagram of a maintenance and inspection process management server according to the first exemplary embodiment. 4 is a table illustrating an example of input items at the time of equipment registration in the equipment inspection support system according to the first embodiment. FIG. 5 is a diagram showing an example of an input screen for explaining an example of input items at the time of registering the equipment configuration in the equipment inspection support system according to the first embodiment. 5 is a table illustrating an example of input items for each device at the time of equipment registration in the equipment inspection support system according to the first embodiment. 3 is a flowchart illustrating a work procedure using the equipment inspection support system according to the first embodiment. FIG. 6 is a diagram illustrating an example of a top screen for an inspector among the work screens accessed during the inspection work using the equipment inspection support system according to the first embodiment. FIG. 3 is a diagram illustrating an example of a facility inspection input screen including facility inspection items and input fields in a work screen accessed during inspection work using the facility inspection support system according to the first embodiment. FIG. 6 is a diagram illustrating an example of an inspection work end input screen accessed when the inspection work using the equipment inspection support system according to the first embodiment is completed. It is a block diagram of a maintenance and inspection process management server according to the second embodiment. It is a block diagram of a maintenance and inspection process management server according to the third exemplary embodiment.

For clarity of explanation, the following description and drawings are appropriately omitted and simplified. Each element illustrated in the drawings as a functional block that performs various processes can be configured by a CPU (Central Processing Unit), a memory, and other circuits in terms of hardware, and a memory can be configured in terms of software. It is realized by the program loaded in. Therefore, it is understood by those skilled in the art that these functional blocks can be realized in various forms by only hardware, only software, or a combination thereof, and the present invention is not limited to them. In each drawing, the same elements are denoted by the same reference numerals, and redundant description is omitted as necessary.

Further, the program described above can be stored in various types of non-transitory computer-readable media and supplied to the computer. Non-transitory computer readable media include various types of tangible storage media. Examples of the non-transitory computer readable medium include a magnetic recording medium (for example, flexible disk, magnetic tape, hard disk drive), magneto-optical recording medium (for example, magneto-optical disk), CD-ROM (Read Only Memory), CD-R, It includes a CD-R/W and a semiconductor memory (for example, mask ROM, PROM (Programmable ROM), EPROM (Erasable PROM), flash ROM, RAM (Random Access Memory)). Further, the program may be supplied to the computer via various types of transitory computer-readable media. Examples of transitory computer-readable media include electrical signals, optical signals, and electromagnetic waves. The transitory computer-readable medium can supply the program to the computer via a wired communication path such as an electric wire and an optical fiber, or a wireless communication path.

Embodiment 1
In the following description, the photovoltaic power generation facility will be described as an example of the facility to be managed, but the applicable range of the facility inspection support system described in the present embodiment is not limited to the photovoltaic power generation facility. FIG. 1 shows a block diagram of an equipment inspection support system 1 according to the first embodiment. As shown in FIG. 1, the facility inspection support system 1 according to the first embodiment includes a server device (for example, a maintenance/inspection process management server 10) and an operator terminal (for example, a maintenance management terminal 13). Further, in the example shown in FIG. 1, the maintenance management terminals 11, 12, and 14 are shown as terminals other than the maintenance management terminal 13 used by the inspection worker who performs the equipment inspection.

The maintenance management terminal 11 is a terminal for managing the maintenance/inspection process management server 10, and is a terminal used by the system administrator. The maintenance management terminal 12 is a terminal used by an inspection company who is a main user of the facility inspection support system 1. The maintenance management terminal 14 is a terminal used by a general user who uses some of the functions of the facility inspection support system 1. The maintenance management terminals 11, 12, and 13 are, for example, PCs (Personal Computers) having a homepage browsing function. On the other hand, the maintenance management terminal 13 is a terminal for an operator to input an inspection result, and is a mobile terminal such as a tablet or a smartphone having an image capturing function such as a camera and a homepage browsing function.

As shown in FIG. 1, in the equipment inspection support system 1 according to the first embodiment, a maintenance/inspection process management server 10 and maintenance management terminals 11 to 14 are connected so as to be communicable via a public line. The maintenance/inspection process management server 10 is, for example, hardware capable of executing a program such as a computer, and the facility/inspection support program is executed on the maintenance/inspection process management server 10. Then, the maintenance management terminals 11 to 14 access the maintenance and inspection process management server 10 so that the user uses the function of the facility inspection support program. Further, the maintenance/inspection process management server 10 uses a database built in the maintenance/inspection process management server 10 or in a storage device such as a hard disk provided separately from the maintenance/inspection process management server 10, and uses the information on the database. And executes various processes.

Next, the relationship between users who use the facility inspection support system 1 according to the first embodiment will be described with reference to FIG. FIG. 2 is a diagram illustrating a relationship between users of the facility inspection support system according to the first embodiment.

As shown in FIG. 2, users of the facility inspection support system 1 according to the first embodiment are a system administrator, an inspection company, an inspection worker, a contractor, and a general user. The system administrator is an administrator who manages the equipment inspection support system 1, and issues an account for using the equipment inspection support system 1 to the inspection company upon request from the inspection company. The process of issuing this account is registration in the system.

The inspection company is a main user of the equipment inspection support system 1. The inspection company is a company or an individual who manages the equipment using the equipment inspection support system 1. The inspection company is a person who undertakes inspection work from the owner of the equipment, and manages information on the inspection target equipment using the equipment inspection support system 1. Further, the inspection company registers the inspection worker designated by himself/herself in the system and manages the inspection work performed by the inspection worker by using the facility inspection support system 1. The inspection worker is an individual who performs the inspection work. In addition, the inspection company is a name on the system, and the inspection company may be the owner of the facility.

Further, the inspection company can register the contractor who has signed the facility inspection contract with himself/herself in the system. The contractor can refer to the information on the equipment with which the equipment inspection contract is made by accessing the equipment inspection support system 1 using the account issued by the inspection company. Note that the contractor is a name on the system, and the contractor and the inspection company may be the same company or individuals.

The general user is a user who uses the equipment document management function of the equipment inspection support system 1 and does not use the equipment inspection function. As will be described in detail in Embodiment 2, this general user uses functions such as managing the amount of power generated by the solar power generation facility that he or she manages and comparing the amount of power generation with the solar power generation facility managed by another person. You can also do it. The general user acquires an account for using the facility inspection support system 1 by using the account registration screen provided on the facility inspection support system 1.

Next, the configuration of the maintenance/inspection process management server 10 used in the facility inspection support system 1 according to the first embodiment will be described. FIG. 3 shows a block diagram of the maintenance/inspection process management server 10 according to the first exemplary embodiment. As described above, the maintenance/inspection process management server 10 executes the facility inspection support program. In FIG. 3, the functions realized by the facility inspection support program are shown as functional blocks.

As shown in FIG. 3, the equipment inspection support system 1 according to the first embodiment includes a user interface screen transmission/reception unit 20, a user interface screen generation unit 21, an input reception unit 22, a user management unit 23, and a contractor equipment registration process. It has a section 24 and an inspection information registration section 25. Further, the equipment inspection support system 1 according to the first embodiment has, as a database, a user interface screen database 30, a business entity database 31, a system administrator database 32, an inspection trader information database 33, a contractor information database 34, and contract document information. It has a database 35, a worker information database 36a, a general user database 36b, a facility information database 37, a facility contract database 38, and an inspection information database 39. The various databases in the equipment inspection support system 1 may be built in one storage device, or may be built in different storage devices.

The user interface screen transmission/reception unit 20 transmits a user interface screen generated in the equipment inspection support system 1 and receives a processing request requested by the user from the equipment inspection support system 1 via the user interface screen. The user interface screen transmission/reception unit 20 is a communication interface that communicates with the maintenance management terminal 11 and the like via a public line.

The user interface screen generation unit 21 generates a user interface screen set for each user based on an instruction from the user management unit 23. Further, when the input reception unit 22 receives any processing request selected from the user interface screens, the user interface screen generation unit 21 generates a user interface screen according to the processing request. The user interface screen generator 21 selects the screen data to be displayed at that time from the user interface screen candidates stored in the user interface screen database 30 when generating the user interface screen, and stores the selected screen data in the facility information database. 37, the equipment contract database 38, and the data stored in the inspection information database 39 are combined to generate a user interface screen. Then, the user interface screen generation unit 21 outputs the generated screen data to the maintenance management terminal 11 or the like via the user interface screen transmission/reception unit 20.

The input reception unit 22 receives a processing request instructed by the user on the user interface screen displayed on the screen of the maintenance management terminal 11 or the like via the user interface screen transmission/reception unit 20, and according to the contents of the processing request. The processing request is output to the user interface screen generation unit 21, the user management unit 23, the contractor facility registration processing unit 24, and the inspection information registration unit 25.

The user management unit 23 performs user registration processing and management of information related to registered users. The user management unit 23 assigns the user to the system administrator database 32, the inspection trader information database 33, the contractor information database 34, and the worker information database 36a in accordance with the attributes of the user to be registered during the registration process of the user. , General user database 36b. The range of user information registered in the database can be appropriately changed according to the system configuration, but it is preferable that at least the range of login ID, name, and authority to operate is included.

Further, the user management unit 23 stores the contract document information exchanged with the contractor by the inspector in the contract document information database 35, and enables the inspector to perform contractor management together with facility management.

In addition, the user management unit 23 has a function of automatically inputting information that is known from the company information about the contractor, based on the company information registered in the company database 31. The photovoltaic power generation facility is under the jurisdiction of, for example, the Bureau of Economy, Trade and Industry, and when installing the facility, the Bureau of Economy, Trade and Industry gives a predetermined approval. Since this authorization information is open to the public, the system administrator registers this open business information in the business database 31.

The contractor facility registration processing unit 24 registers, in the facility information database 37 and the facility contract database 38, information regarding the inspection target facility that has been inspected by the contractor based on the processing request given from the input reception unit 22. The facility information database 37 stores information on devices that make up the facility to be inspected, information indicating a connection state of devices in the facility, and the like. The facility information stored in the facility information database 37 is linked to the contractor registered in the contractor information database 34 by the contractor ID. The facility contract database 38 stores the authorization information of the Bureau of Economy, Trade and Industry regarding the facility to be inspected, information indicating the state of the facility such as whether or not the facility is being used, and the like.

The inspection information registration unit 25 registers the inspection result information indicating the result of the inspection performed by the worker in the inspection information database 39 based on the processing request given from the input reception unit 22. In addition, the inspection information registration unit 25 performs the validation process of the input items displayed on the inspection end work input screen at the time of the inspection end work described later. The inspection information registration unit 25 stores in the inspection information database 39 the image transmitted from the work terminal at the time of this inspection end work. It should be noted that the inspection information database 39 also stores inspection content information in which inspection items and inspection procedures to be performed for each device constituting the inspection target equipment are described. Information stored in the equipment information database 37, the equipment contract database 38, and the inspection information database 39 is assumed to be linked to each other by the equipment ID.

In the equipment inspection support system 1 according to the first embodiment, the operator makes an equipment inspection work by using the system, thereby reducing work mistakes. Therefore, in the following, among the functions of the equipment inspection support system 1, the equipment inspection management function will be particularly described. The equipment inspection management function includes two functions, an equipment registration function and an inspection support function. Therefore, first, the facility registration function will be described.

The facility registration function is a function used by the inspection company and registers information about the facility to be inspected in the facility inspection support system 1. In this equipment registration function, information on equipment and equipment constituting the equipment is registered on the user interface screen. Therefore, the information input by the inspection company at the age of equipment registration will be described. FIG. 4 shows a table for explaining an example of input items at the time of equipment registration in the equipment inspection support system according to the first embodiment. The equipment registration processing is mainly performed by the contractor equipment registration processing unit 24.

In the example shown in FIG. 4, there are "equipment registration ID", "equipment ID", "zip code/location", "power generation company", and "contract state" as indispensable input items. The “equipment registration ID” is an ID issued by a system administrator who manages the equipment inspection support system 1 to identify the equipment. The “equipment ID” is the equipment ID described in the certificate issued by the Bureau of Economy, Trade and Industry. When this equipment ID is input, the contractor equipment registration processing unit 24 refers to the business entity DB, and if there is a registration corresponding to the equipment ID, the "postal code/location" indicating the installation location of the equipment from the registration. And, the item of "power generation company" is automatically set. The "power generation company" is the owner of the photovoltaic power generation facility, and is the person who requests the facility inspection from the inspection company.

The “contract status” is an item for inputting the current state of the equipment inspection contract, and is an item for setting the contents such as quotation, order, construction contract conclusion, maintenance contract completion, etc. If the contract status is blank, it is recognized as a general user, not as an inspection company.

Further, other items will be described. In the “power generation facility classification”, in this example, the photovoltaic power generation facility is set as a fixed value in advance. The “facility name” is an item that the inspection company arbitrarily inputs to identify the inspection target equipment. The “power generation output” is a standard of the power generation capacity of the photovoltaic power generation facility, and is an item to which the power generation output described in the notification form notified to the Bureau of Economy, Trade and Industry is input, for example.

“Maintenance and inspection person” is an item in which the name of the person in charge of inspection work designated by the inspection company is entered. The “certification date” is an item in which the operation start date, which is the operation start date of the power generation equipment, is input. The “facility state” is an item in which the current installation state of the inspection target facility is entered, and is an item for which ownership, remodeling, disposal, etc. are input. In addition, when discarding the state, it is preferable to enter the reason for discarding.

The “electric power company related document” is an item for registering a document exchanged between the contractor and the electric power company. This power company related document is registered in the facility contract database 38. "Documents related to the Bureau of Economy, Trade and Industry" is an item for registering documents and the like created when the agency has approved the Bureau of Economy, Trade and Industry. Documents related to the Bureau of Economy, Trade and Industry are registered in the facility contract database 38. The “construction drawing” is an item for registering a site drawing, a wiring diagram, etc. created at the time of installing the equipment or at the time of initial confirmation of the equipment. The construction drawing is registered in the equipment contract database 38. The "contract document" is an item for registering a quote, an order form, a document file such as a contract, a contract unit price, a contract date, contract information such as a contractor, and other documents exchanged with the contractor. is there. The contract document is registered in the contract document information database 35.

Subsequently, in the equipment inspection support system 1 according to the first embodiment, the equipment configuration used in the inspection work is registered. In photovoltaic power generation facilities, there may be a gap between the licensed facility and the facility actually installed. Therefore, a structural drawing based on the actual equipment is required when performing the inspection work. Therefore, an example of the equipment configuration registration screen provided by the contractor equipment registration processing unit 24 is shown in FIG. FIG. 5 is an input screen example for explaining an example of input items at the time of facility configuration registration in the facility inspection support system 1 according to the first embodiment.

In the example shown in FIG. 5, on the input screen for performing equipment configuration registration, quantity input fields 40 to 43 and 44a to 44b for entering the quantity of equipment used for equipment are presented. In the example shown in FIG. 5, the input fields regarding the distribution board, the power conditioner, the connection box, the strings, and the panel are presented. A distribution board is a device used to connect equipment to system wiring. A power conditioner is a device that converts DC power generated by a photovoltaic power generation panel into AC power. The connection box is a device that bundles a plurality of strings and connects them to a power conditioner. Strings are devices for connecting and managing a plurality of solar panels in series. The panel is a solar panel.

Then, when a number of 2 or more is input in the input field, the contractor facility registration processing unit 24 increases the number of input fields related to the devices described below. In the example shown in FIG. 5, since “4” is entered in the string quantity input field 43, four panel input fields connected to the strings are provided (quantity input fields 44a to 44d in FIG. 5).

Further, the contractor equipment registration processing unit 24 automatically generates the equipment wiring diagram shown in the lower portion of FIG. 5 based on the numbers entered in the input fields. In the example of the equipment wiring diagram shown in FIG. 5, a distribution board symbol 50, a power conditioner symbol 51, a connection box symbol 52, string symbols 53a to 53d, and panel symbols 54a to 54d are shown according to the number of devices in the upper stage. .. Since the connection relationship between the symbols is defined for each device, the contractor equipment registration processing unit 24 automatically constructs.

Further, as shown in FIG. 5, a cancel button 45 and a registration button 46 are provided on the equipment configuration registration screen. When the user selects the cancel button 45, the equipment configuration registration process is interrupted. On the other hand, when the user selects the registration button 46, the equipment configuration registration process is completed.

In addition, in the equipment configuration registration process, it is possible to register information about the equipment for each equipment. This is done by selecting the symbol on the equipment wiring diagram of FIG. 5 to register on the information input screen for each called device. Therefore, FIG. 6 shows a table for explaining an example of input items for each device at the time of equipment registration in the equipment inspection support system according to the first embodiment.

In the example shown in FIG. 6, "equipment registration ID", "equipment ID", "connection source equipment ID", and "inspection method" are set as items for which fixed values related to equipment are automatically input. .. The “equipment registration ID” is set by quoting the items described in FIG. The “device ID” is an ID assigned to each device described in the authorization document to the Bureau of Economy, Trade and Industry. The “connection source device ID” is information used in creating the equipment wiring diagram of FIG. 5, and the ID of the connection destination device is set for each device. The “inspection method” is set by citing from the master information in which these legal inspection items are registered, because the items that must be inspected for each device are legally specified.

“Device name” is an item for inputting a name according to the type of device such as a distribution board, a power conditioner, and wiring. “Summary” is a memo field for inputting important items regarding the device. “Device information” is an item for inputting the product name, model, manufacturing number, manufacturer, etc. of the device. The number entered in the input field of FIG. 5 is automatically entered as the “number”. “Unit” is an input item that specifies a unit for counting devices. “Installation position/direction” is an item for inputting the installation direction and angle of the solar panel. "Remarks" is a memo field for entering miscellaneous information.

The facility device registration process is completed by registering the contents described in FIGS. 4 to 6. When performing the inspection work, the inspection result input screen for the inspection worker is constructed by referring to the facility wiring diagram created in FIG. 4 and the inspection items determined in FIG. Then, the worker performs the inspection according to the instruction on the inspection result input screen and inputs the inspection result. Therefore, the inspection work using the facility inspection support system 1 according to the first embodiment will be described below.

First, FIG. 7 shows a flowchart illustrating a work procedure using the facility inspection support system according to the first embodiment. The process shown in FIG. 7 is a process performed by the inspection worker by displaying the work screen generated by the maintenance/inspection process management server 10 on the work terminal (for example, the maintenance management terminal 13).

In the inspection work, the inspection worker uses the work terminal to log in to the maintenance and inspection process management server 10 (step S11). Then, in response to the confirmation that the login ID is an authorized inspection worker, the inspection process of steps S13 to S26 is performed (step S12). In this step S12, when it is found that the login ID is for a person other than the authorized inspection worker, the maintenance/inspection process management server 10 rejects the login and ends the requested processing.

When it is determined in step S12 that the worker is an authorized worker, the maintenance/inspection process management server 10 displays the inspection worker top screen on the worker terminal (step S13). When the inspection end button 65 provided on the worker top screen is selected, the equipment inspection support system 1 displays the inspection end work input screen generated by the user interface screen generator 21 (step S14). , S21). The process after step S21 is a work completion determination process, and details of this work completion determination process will be described later. On the other hand, when the inspection end button is not selected and the equipment symbol on the inspection worker top screen is selected, a facility inspection input request is transmitted from the work terminal to the maintenance/inspection process management server 10. Then, the maintenance/inspection process management server 10 displays the facility inspection input screen on the work terminal in response to the reception of the facility inspection input request (steps S15 and S16). This equipment inspection input screen is generated by the user interface screen generation unit 21 using the information stored in the equipment information database 37 and the inspection information database 39.

Then, the inspection worker inputs the inspection result and the image for the inspection completion report on the work screen (for example, the facility inspection input screen) displayed on the work terminal (steps S17 and S18). Then, the inspector selects the return button in response to the completion of input of the inspection item results and images for all the required inspection items among the inspection items displayed on the facility inspection input screen. Then, the work screen is returned to the equipment inspection top screen (steps S17 to S19).

In the equipment inspection support system 1 according to the first embodiment, when the inspection end button is selected in step S14, the inspection end work is performed. Therefore, the processing flow at the time of this inspection end work will be described. As shown in FIG. 7, in the inspection end work, the inspection end work screen is displayed on the work terminal in step S21. Then, the user interface screen generation unit 21 generates, as the initial screen of the inspection work end input screen, the inspection end work input screen in which the first item of the work end inspection items is validated (steps S22 and S23). After that, until the return button on the inspection end work input screen is selected, the operator sequentially inputs the completion report images while activating the inspection items one by one in a predetermined order (steps S23 to S27). ). This completion report image is stored in the inspection information database 39 of the maintenance/inspection process management server 10. At this time, for example, when the return button 80 is selected during the inspection work and another work occurs (YES branch of step S24), the equipment inspection support system 1 displays all the completion report images input so far. After clearing, the inspection operator is requested again to register the completion report image from the first item. Then, the equipment inspection support system 1 determines that the inspection work is completed in response to the images being registered in all the inspection completion work items.

Here, the worker top screen displayed in step S13 will be described. FIG. 8 is a diagram illustrating an example of a top screen for the inspector among the work screens accessed during the inspection work using the facility inspection support system according to the first embodiment.

In the example shown in FIG. 8, the facility operator's wiring diagram described in FIG. 5, the reference button 60, the date input box 61, the inspection start button 62, the legends 63a to 63c, the print button 64, and the inspection end are displayed on the inspection worker top screen. Button 65 is displayed. Further, the equipment number, the equipment ID, the equipment name, and the like are displayed on the inspection worker top screen.

The reference button 60 is a button for referring to the previous inspection result. When the check start button 62 is selected, today's date is input to the date input box 61 indicating a new inspection date in the date input box 61. Legends 63a to 63c are for explaining what is meant by the display of the inspection implementation status of the equipment corresponding to the symbol shown in the equipment wiring diagram. The print button 64 is for printing the inspection result by selecting this button. The inspection end button 65 is a button that is selected when ending the inspection work on the inspection target equipment, and is selected when performing the inspection end work for performing the operation for returning the inspection target equipment to the original state.

Further, in the example shown in FIG. 8, the distribution board symbol 50 and the power conditioner symbol 51 indicate a state where the inspection has passed, and the connection box symbol 52, the string symbols 53a to 53d, and the panel symbols 54a to 54d indicate that the inspection has not been performed. Show. The inspector displays the equipment inspection input screen of each device by selecting the symbol of the device to be inspected. By the process of selecting this symbol, the facility inspection input request shown in step S14 of FIG. 7 is transmitted from the maintenance management terminal 13 to the maintenance and inspection process management server 10. Then, in response to the selection of the device symbol on the work terminal, the user interface screen generation unit 21 of the maintenance/inspection process management server 10 generates the screen data of the inspection result input screen corresponding to the selected symbol. And send it to the work terminal.

Next, FIG. 9 shows a view for explaining an example of a facility inspection input screen including facility inspection items and input fields in the work screen accessed during the inspection work using the facility inspection support system according to the first embodiment. The example shown in FIG. 9 is an example of a facility inspection input screen for the power conditioner.

In the example shown in FIG. 9, information for identifying the inspection target device is displayed on the upper side of the facility inspection input screen. A visual item check button 70 is arranged above the table for inputting the inspection result. The visual item check button 70 is a button for passing all the inspection items for which the visual inspection is designated as the inspection method. The return button 71 is a button for returning the screen displayed on the work terminal to the inspection worker top screen when the inspection of the inspection target device is completed or when the inspection work is changed to another device. is there.

Then, as shown in FIG. 9, the facility inspection input screen is provided with a list of items corresponding to the inspection target device and an inspection result input interface for each item. In the example shown in FIG. 9, the inspection item column 72 describes inspection methods such as “visual inspection” and “measurement” and an inspection procedure indicating what kind of inspection is to be performed. Further, an inspection pass check box column 73, an inspection fail check box column 74, an inspection exclusion check box column 75, and an inspection memo column 76 are provided for each inspection item. The check pass check box column 73 and the check fail check box column 74 are of a format in which any check box is checked based on the check result. Further, the inspection exclusion check box column 75 is a column to which a check box for assigning a check for checking no inspection target item or an item that can be excluded from the inspection target in this inspection work is assigned.

Further, the inspection memo column 76 is provided with a comment entry column 77, an inspection report image 78, and an image selection button 79. It is preferable that the inspector fills in the comment indicating the inspection status in the comment entry column 77, but the comment entry column 77 may not be entered. The inspection report image 78 is an area for displaying a thumbnail of the inspection result report image selected using the image selection button 79. The inspection report image 78 is an image which is a substitute for writing a comment, or information other than characters such as a graph of measurement results. The inspection report image may be uploaded to the maintenance/inspection process management server 10 all at once after the facility inspection is completed, or may be performed each time an image is selected. Then, in the equipment inspection support system 1 according to the first embodiment, the inspection information registration unit 25 stores the inspection result obtained according to the inspection work flow shown in FIG. 9 in the inspection information database 39.

Next, the inspection end work input screen displayed on the work terminal when the inspection end work is described. FIG. 10 is a diagram illustrating an example of an inspection work end input screen that is accessed at the end of inspection work using the facility inspection support system according to the first embodiment. As shown in FIG. 10, in the inspection completion work input screen, information for identifying the inspection target facility is displayed on the upper side. Further, a return button 80 is arranged above the table for inputting the inspection result. The return button 80 is a button for returning the screen displayed on the work terminal to the top screen for the inspection worker when the inspection work different from the inspection end work is performed.

Then, as shown in FIG. 10, the inspection end work input screen is provided with an item indicating an end work content corresponding to the inspection target device and an input interface of a completion report image for each item. In the example shown in FIG. 10, the content of the inspection completion work is described in the completion work content column 82. An image input field 83 is provided for each inspection item. The image input field 83 is provided with a completion report image 84 and an image selection button 85. The inspection worker selects the image selection button 85 and selects an image to be the completion report image from the displayed image selection screen. As a result, the thumbnail image of the completion report image is displayed on the image selection button 85. The completion report image may be uploaded to the maintenance/inspection process management server 10 in a batch after the inspection end work, or may be performed each time an image is selected. Then, in the equipment inspection support system 1 according to the first embodiment, the inspection information registration unit 25 stores the image obtained according to the inspection end work flow shown in FIG. 10 in the inspection information database 39.

From the above description, in the facility inspection support system 1 according to the first embodiment, the maintenance inspection process management server 10 causes the maintenance inspection process management server 10 to check the inspection item associated with the inspection target facility by the inspection support program installed in the maintenance inspection process management server 10. A screen generation process that reads out from the database to be used and generates a work screen that includes at least work procedure instructions and an inspection result input field, and an inspection result reception process that receives the input result in the input field and saves it in the database. , When the inspection work for the inspection target equipment is completed, all the completion report images indicating that the completion work set for each device constituting the inspection target equipment is completed are input in the preset order. Accordingly, a work completion determination process for recording the completion of the inspection work is performed. Further, when the input processing to the input field occurs during the work completion determination processing, the completion report image is input again from the beginning of the preset order.

With the above configuration, in the equipment inspection support system 1 according to the first embodiment, the inspection worker can be surely inspected about the inspection contents regarding all of the inspection items, so that the inspection omission is prevented. You can Further, in the equipment inspection support system 1 according to the first embodiment, regarding the inspection completion work, the operation for returning from the inspection state to the operating state for each device is described as the inspection procedure. By adding this inspection end work to one of the inspection items and surely performing it, it is possible to prevent the operation of returning the device from the inspection state to the operating state to be overlooked. As a result, in the equipment inspection support system 1 according to the first embodiment, it is possible to prevent inspection omissions and reduce inspection work mistakes.

Embodiment 2
In the second embodiment, a maintenance/inspection process management server 10a which is another form of the maintenance/inspection process management server 10 will be described. Therefore, FIG. 11 shows a block diagram of the maintenance/inspection process management server 10a according to the second embodiment. In the description of the second embodiment, the same components as those described in the first embodiment will be assigned the same reference numerals as those in the first embodiment and will not be described.

As shown in FIG. 11, the maintenance/inspection process management server 10a according to the second embodiment adds an equipment usage statistics calculation unit (for example, a power generation amount statistics calculation unit 91) to the equipment inspection support system 1 according to the first embodiment. It was done. In the maintenance/inspection process management server 10a according to the second embodiment, usage record information (power generation amount information) indicating the usage record of the inspection target equipment (for example, the photovoltaic power generation equipment managed by itself) is separately provided by the inspector or general user. , Is stored in the equipment information database 37. Then, the power generation amount statistical calculation unit 91 performs a facility usage statistical calculation process of generating facility usage statistical information using the power generation amount information stored in the facility information database 37.

Moreover, the power generation amount statistical calculation unit 91 changes the range of equipment for generating statistical information based on an instruction from the user. For example, when comparing the power generation amounts of the self-equipment and the equipment installed near the self-equipment, the power generation amount statistical calculation unit 91 can compare the power generation facilities according to the amount of the power generation amount information registered by the user. Increase or decrease the installation area or the number of facilities to be compared. More specifically, the power generation amount statistical calculation unit 91 registers the power generation amount information in the facility information database 37, and presents the user with the facility usage statistical information according to the increase in the accumulated amount of the power generation amount information for each user. Expand the range of information contained in.

From the above description, by using the maintenance/inspection process management server 10a according to the second embodiment, not only the statistical information of the power generation amount of the own equipment but also the power generation amount comparison with other equipment that can be compared with the own equipment can be performed. You can Further, by performing the comparison process of the statistical information such as the power generation amount, it is possible to detect the abnormality of the own equipment.

Embodiment 3
In the third embodiment, a maintenance/inspection process management server 10b which is another form of the maintenance/inspection process management server 10 will be described. Therefore, FIG. 12 shows a block diagram of the maintenance/inspection process management server 10b according to the second embodiment. In the description of the third embodiment, the same components as those described in the first embodiment will be assigned the same reference numerals as those in the first embodiment and will not be described.

As shown in FIG. 12, the maintenance/inspection process management server 10b according to the third embodiment is obtained by adding a QR code generation unit 92 to the maintenance/inspection process management server 10 according to the first embodiment. The QR code generation unit 92 performs a QR code generation process for generating a QR code (registered trademark) indicating the access destination of the work screen corresponding to the inspection target equipment for each inspection target equipment based on the QR code generation request from the inspection company. To do. Then, the inspection company prints the QR code generated by the QR code generation unit 92 and pastes it on the inspection target equipment, or hands it to the inspection operator during the inspection.

From the above description, by generating the QR code using the maintenance/inspection process management server 10b according to the third embodiment, the inspection worker can easily access the work screen corresponding to the inspection target equipment from the QR code. It will be possible.

The present invention is not limited to the above-mentioned embodiments, but can be modified as appropriate without departing from the spirit of the present invention.

1 Equipment Inspection Support System 10 Maintenance/Inspection Process Management Server 11-14 Maintenance Management Terminal 20 User Interface Screen Transmitter/Receiver 21 User Interface Screen Generator 22 Input Accepter 23 User Manager 24 Contractor Equipment Registration Processor 25 Inspection Information Register 30 User Interface Screen Database 31 Business Operator Database 32 System Administrator Database 33 Inspector Information Database 34 Contractor Information Database 35 Contract Document Information Database 36a Worker Information Database 36b General User Database 37 Equipment Information Database 38 Equipment Contract Database 39 Inspection Information Database 40-43, 44a-44d Quantity input field 45 Cancel button 46 Registration button 50 Distribution board symbol 51 Power conditioner symbol 52 Connection box symbol 53a-53d String symbol 54a-54d Panel symbol 60 Reference button 61 Date input box 62 Check start button 63 Legend 64 Print button 65 Inspection end button 70 Visual item check button 71 Back button 72 Inspection item column 73 Inspection pass check box column 74 Inspection failure check box column 75 Inspection exclusion box check button column 76 Inspection memo column 77 Comment entry column 78 Inspection report image 79 Image selection button 80 Return button 81 Inspection end button 82 End work content field 83 Image input field 84 Completion report image 85 Image selection button 91 Power generation amount statistical calculation unit 92 QR code generation unit

Claims (6)

It is executed by a server device having a communication interface, and presents a work screen including instructions for work procedures and an input field for the inspection result to a worker who carries out facility inspection on the work terminal of the worker and saves the inspection result. A facility inspection support program that
A screen generation process for generating a work screen including at least an inspection item associated with an inspection target facility from a database used by the server device and including an instruction for the work procedure and an input field for the inspection result,
An inspection result reception process of receiving the input result in the input field and storing it in the database,
When the inspection work for the inspection target equipment is completed, all completion report images indicating that the completion work set for each device constituting the inspection target equipment is completed are input in a preset order. Depending on the, the work completion judgment process of recording the completion of the inspection work,
A facility inspection support program for causing the worker to input the completion report image again from the beginning of the preset sequence when the input process to the input field occurs during the work completion determination process. The equipment according to claim 1, wherein usage history information indicating usage history of the equipment to be inspected is separately stored in the database, and equipment usage statistics calculation processing for generating equipment usage statistics information using the usage history information is performed. Inspection support program. In the equipment usage statistics calculation process, information included in the equipment usage statistics information presented to the user according to an increase in the accumulated amount of the usage history information for each user who registers the usage history information in the database. The facility inspection support program according to claim 2, which expands the range of. The facility inspection support program according to any one of claims 1 to 3, which performs a QR code generation process for generating a QR code indicating an access destination of the work screen corresponding to the inspection target facility for each of the inspection target facilities. A facility inspection support system that presents a work screen including instructions of a work procedure and an inspection result input field to a work terminal of a worker who performs facility inspection, and saves the inspection result in a server device via the work terminal. Inspection support method in
An inspection item associated with the inspection target equipment is read from the database to generate a work screen including at least the instruction of the work procedure and the input field of the inspection result,
The input result in the input field is received by the server device and stored in the database,
When the inspection work for the inspection target equipment is completed, all completion report images indicating that the completion work set for each device constituting the inspection target equipment is completed are input in a preset order. According to the above, a work completion judgment process for recording the completion of the inspection work is performed,
A facility inspection support method for allowing the worker to input the completion report image again from the beginning of the preset sequence when the input process to the input field occurs during the work completion determination process. Equipment inspection support having a server device for generating a work screen including work procedure instructions and an inspection result input field and storing the inspection result, and a work terminal for displaying the work screen to a worker System,
In the server device, a screen generation process for reading an inspection item associated with the facility to be inspected from a database used by the server device and generating a work screen including at least the instruction of the work procedure and the input field of the inspection result. When,
An inspection result receiving process of receiving an input result in the input field from the work terminal and storing the result in the database,
When the inspection work for the inspection target equipment is completed, all completion report images indicating that the completion work set for each device constituting the inspection target equipment is completed are input in a preset order. According to the above, a work completion determination process of recording that the inspection work is completed, and
A facility inspection support system that allows the worker to input the completion report image again from the beginning of the preset order when the input process to the input field occurs during the work completion determination process.

Images