JP2021140323A - Construction situation confirmation device and construction situation confirmation program - Google Patents

Abstract

To provide a construction situation confirmation device and a construction situation confirmation program capable of confirming a construction situation.SOLUTION: A construction situation confirmation device includes: a first acquisition part for acquiring construction information including an attachment position of an apparatus and information for identifying a model of the apparatus; a second acquisition part for acquiring first identification information for identifying the model of an apparatus attached to the attachment position of the apparatus in association with the attachment position; and an output part for collating the information for identifying the model of the apparatus corresponding to a prescribed attachment position and acquired by the first acquisition part with the first identification information corresponding to the prescribed attachment position and acquired by the second acquisition part to output a collation result.SELECTED DRAWING: Figure 1

Description

This disclosure relates to a construction status confirmation device and a construction status confirmation program.

Generally, when constructing various equipment systems such as an air conditioning system, an engineering business operator (hereinafter, simply referred to as a "business operator") designs the equipment, and the contractor installs various equipment and performs a trial run.

In addition, the state of the installation work performed by the contractor is recorded as a construction photograph and sent to the contractor. As a result, the business operator can confirm that the installation work and the like have been properly performed through the construction photograph.

Japanese Unexamined Patent Publication No. 2006-146682

However, in the case of construction photographs, the business operator can confirm that the installation work, etc. has been performed at the specified date and time, but for example, is the model of the actually installed equipment as designed? It is not possible to confirm the detailed construction status such as.

The present disclosure provides a construction status confirmation device and a construction status confirmation program capable of confirming the construction status.

The first aspect of the present disclosure is a construction status confirmation device.
A first acquisition unit that acquires construction information including the mounting position of the device and information that identifies the model of the device, and
A first identification information that identifies the model of the device mounted at the mounting position of the device, a second acquisition unit that acquires the mounting position in association with each other, and a second acquisition unit.
The information that identifies the model of the device acquired by the first acquisition unit corresponding to the predetermined mounting position is collated with the first identification information acquired by the second acquisition unit corresponding to the predetermined mounting position. It also has an output unit that outputs the collation result.

According to the first aspect of the present disclosure, it is possible to provide a construction status confirmation device capable of confirming the construction status.

Further, the second aspect of the present disclosure is the construction status confirmation device according to the first aspect.
The second acquisition unit is
Acquire the second identification information for identifying the individual of the device mounted at the mounting position of the device, and obtain the second identification information.
By inquiring the model corresponding to the second identification information, the first identification information and the mounting position are associated and acquired.

Further, the third aspect of the present disclosure is the construction status confirmation device according to the second aspect.
The second acquisition unit identifies the individual of the device attached to the attachment position of the device by acquiring the second identification information specified based on the code related to the individual information or the photographed image of the name plate. Acquire the identification information of.

Further, the fourth aspect of the present disclosure is the construction status confirmation device according to the second aspect.
The second acquisition unit identifies the characteristics based on the outer shape of each individual device attached to the device mounting position from the photographed image of the device, so that the device mounted at the device mounting position is an individual device. Acquires a second identification information for identifying the image.

Further, the fifth aspect of the present disclosure is a construction status confirmation program.
The first acquisition process for acquiring construction information including the mounting position of the device and the information for identifying the model of the device, and
The first identification information for identifying the model of the device mounted at the mounting position of the device, the second acquisition step for acquiring the mounting position in association with each other, and the second acquisition step.
Information that identifies the model of the device acquired in the first acquisition step corresponding to the predetermined mounting position, and the first identification acquired in the second acquisition step corresponding to the predetermined mounting position. Let the computer execute the output process that collates the information and outputs the collation result.

According to the fifth aspect of the present disclosure, it is possible to provide a construction status confirmation program capable of confirming the construction status.

FIG. 1 is a first diagram showing an example of a system configuration of a construction status confirmation system. It is a figure which shows the composition example of a completed book and a facility management ledger. It is a 1st sequence diagram which shows the flow of the construction condition confirmation processing by the construction condition confirmation system. It is a figure which shows an example of the hardware composition of a server device and a terminal device. It is a figure which shows an example of the position information. FIG. 1 is a first diagram showing a specific example of position information acquisition processing and construction result information transmission processing by a terminal device. It is a figure which shows the specific example of the construction result information acquisition processing and collation processing by a server device. It is a flowchart which shows the flow of the collation processing by a server device. It is a figure which shows the specific example of the display processing by an information input device. It is a 2nd figure which shows an example of the system structure of the construction situation confirmation system. It is a 2nd sequence diagram which shows the flow of the construction condition confirmation processing by the construction condition confirmation system. It is a 2nd figure which shows the specific example of the position information acquisition processing and construction result information transmission processing by a terminal device. It is a figure which shows the specific example of the construction result information acquisition processing, inquiry processing and collation processing by a server device. FIG. 3 is a third diagram showing an example of the system configuration of the construction status confirmation system. It is a 3rd sequence diagram which shows the flow of the construction condition confirmation processing by the construction condition confirmation system. FIG. 3 is a third diagram showing a specific example of position information acquisition processing and construction result information transmission processing by a terminal device. It is a figure which shows the specific example of the construction result information acquisition processing, external feature extraction and model information acquisition processing, and collation processing by a server device.

Hereinafter, each embodiment will be described with reference to the accompanying drawings. In the present specification and the drawings, components having substantially the same functional configuration are designated by the same reference numerals to omit duplicate explanations.

[First Embodiment]
<System configuration of construction status confirmation system>
First, the system configuration of the construction status confirmation system according to the first embodiment will be described. FIG. 1 is a first diagram showing an example of a system configuration of a construction status confirmation system. As shown in FIG. 1, the construction status confirmation system 100 includes an information input device 110, a server device 120, and a terminal device 130. In the construction status confirmation system 100, the information input device 110 and the terminal device 130 are connected to the server device 120 so as to be able to communicate with each other.

The information input device 110 is a device used by the business operator 160. The business operator 160 designs the equipment of the equipment system in response to the request from the customer. Further, the business operator 160 registers the information (referred to as "construction information") necessary for the contractor 150 to perform the construction according to the equipment design in the server device 120 via the information input device 110.

Further, the information input device 110 receives information indicating whether or not the construction is performed according to the equipment design (construction status) from the server device 120 in response to the business operator 160 registering the construction information in the server device 120. Receive. As a result, the business operator 160 can confirm the construction status. Further, the business operator 160 generates a document for reporting the construction status (referred to as a “completed book” in the present embodiment) via the information input device 110 and delivers it to the customer.

The server device 120 is an example of a construction status confirmation device, and provides information indicating the construction status to the business operator 160.

Specifically, a construction status confirmation program is installed in the server device 120, and when the program is executed, the server device 120 can be loaded with the server device 120.
・ Construction information acquisition department 121,
・ Location information providing department 122,
・ Construction result information acquisition unit 123,
・ Collation unit 124,
Functions as.

The construction information acquisition unit 121 is an example of the first acquisition unit, and acquires the construction information input by the business operator 160 via the information input device 110 and stores it in the construction information storage unit 131.

The position information providing unit 122 extracts information (position information) regarding the mounting position of each device from the construction information stored in the construction information storage unit 131, and provides the information to the terminal device 130.

As a result, the contractor 150 inputs the equipment to the terminal device 130 by selecting the mounting position from the position information provided by the position information providing unit 122 when the equipment is installed at the construction site. Can be done. Further, the contractor 150 can record the construction result information including the mounting position information and the model information in the terminal device 130 by inputting the model of the mounted device in association with the selected mounting position.

The construction result information acquisition unit 123 is an example of the second acquisition unit, and acquires the construction result information recorded in the terminal device 130 by the contractor 150 from the terminal device 130. Further, the construction result information acquisition unit 123 acquires the mounting position information included in the acquired construction result information in association with the model information. Further, the construction result information acquisition unit 123 notifies the collation unit 124 of the acquired mounting position information and model information.

The collating unit 124 is an example of an output unit. The collation unit 124 determines whether or not the construction has been performed according to the equipment design based on the mounting position information and the model information notified from the construction result information acquisition unit 123. Specifically, the collation unit 124 refers to the construction information storage unit 131 based on the installation position information and the model information notified from the construction result information acquisition unit 123, and the construction is stored in the construction information storage unit 131. Match with information.

If the result of the collation matches the construction information, the collation unit 124 determines that the construction was performed according to the equipment design by the contractor 150. On the other hand, if it does not match the construction information, the collation unit 124 determines that the construction was not performed according to the equipment design by the contractor 150.

The collation unit 124 transmits and displays the collation result to the information input device 110 as information indicating the construction status. As a result, the business operator 160 can confirm the construction status.

The terminal device 130 is a device carried by the contractor 150 at the construction site. The contractor 150 carries the terminal device 130 when constructing an air-conditioning system including the air-conditioning device 1 (reference numeral 170_1) to the air-conditioning device n (reference numeral 170_n).

As shown in FIG. 1, in the present embodiment, the equipment system to be constructed is described as an air conditioning system, but the equipment system to be constructed is not limited to the air conditioning system but is another equipment system. May be good.

The contractor 150 starts the terminal device 130 and accesses the server device 120 to acquire the position information from the server device 120. In addition, the contractor 150 records the construction result information by selecting the mounting position from the acquired position information and inputting the model of the mounted device when the device is installed at the construction site. do. Further, the contractor 150 transmits the construction result information to the server device 120 via the terminal device 130.

<Structure example of completed books and equipment management ledger>
Next, a configuration example of the completed book delivered to the customer and the equipment management ledger which is a part of the completed book will be described. FIG. 2 is a diagram showing a configuration example of a completed book and an equipment management ledger. As shown in FIG. 2A, the completed book 200 includes a cover, an equipment delivery note, an instruction manual, a completed drawing, an air conditioner test run table, an airtightness test result table, a water flow test result table, and an air volume measurement test comparison table. It consists of a construction photo ledger, equipment management ledger, warranty card, maintenance contact list, etc.

In the server device 120 according to the present embodiment, among the documents constituting the completed book 200, the equipment management ledger data generated by the business operator 160 before the construction by the contractor 150 is used as the construction information (according to the equipment design). It is used as an example of information required for the contractor to carry out the construction.

FIG. 2B is a diagram showing a configuration example of equipment management ledger data used as construction information. As shown in FIG. 2B, the equipment management ledger data 210 has "classification", "system", "device name", "model", "serial number", "manufacturer", and "mounting position" as information items. "," Installation date "is included.

In the "classification", the classification of the equipment to be installed (classification indicating whether it is a commercial air conditioner or a household air conditioner) is stored. The "system" stores information indicating the refrigerant system to which the equipment to be attached is connected.

In the "device name", the unit name of the device to be attached (name indicating whether it is an indoor unit or an outdoor unit) is stored. The "model" stores model information (first identification information) that identifies the model of the device to be attached. In the "serial number", a serial number (second identification information) for identifying an individual of the device to be attached is stored.

In "Manufacturer", the name of the manufacturer of the equipment to be installed is stored. The "mounting position" stores the mounting position information (for example, floor, room / zone, etc.) of the corresponding device. The "installation date" stores the date when the corresponding device was installed.

<Processing flow of construction status confirmation system>
Next, the flow of the construction status confirmation process by the construction status confirmation system 100 will be described. FIG. 3 is a first sequence diagram showing the flow of the construction status confirmation process by the construction status confirmation system.

As shown in FIG. 3, in step S301, the business operator 160 generates construction information (here, equipment management ledger data 210) via the information input device 110, and performs a work of registering the generated construction information.

In step S302, the server device 120 stores the construction information transmitted from the information input device 110 in the construction information storage unit 131.

In step S303, the position information providing unit 122 of the server device 120 extracts the position information from the construction information stored in the construction information storage unit 131 and provides it to the terminal device 130.

In step S304, the terminal device 130 displays the provided position information as a list of mounting positions, and the contractor 150 selects the position where the device is actually mounted from the displayed list of mounting positions. Further, the contractor 150 inputs the model of the actually installed device to the terminal device 130. Further, the terminal device 130 transmits the construction result information including the mounting position information and the model information to the server device 120.

In step S305, the construction result information acquisition unit 123 of the server device 120 acquires the mounting position information and the model information transmitted as the construction result information from the terminal device 130 in association with each other. Further, the construction result information acquisition unit 123 of the server device 120 notifies the collation unit 124 of the acquired mounting position information and model information.

In step S306, the collating unit 124 of the server device 120 refers to the construction information storage unit 131 and collates with the equipment management ledger data 210 based on the installation position information and the model information notified from the construction result information acquisition unit 123. do. Further, the collation unit 124 transmits the collation result to the information input device 110 in association with the equipment management ledger data 210.

In step S307, the information input device 110 displays the collation result transmitted from the server device 120. As a result, the business operator 160 can confirm the construction status.

<Hardware configuration of server device and terminal device>
Next, the hardware configuration of the server device 120 and the terminal device 130 will be described. FIG. 4 is a diagram showing an example of the hardware configuration of the server device and the terminal device.

(1) Hardware Configuration of Server Device As shown in FIG. 4A, the server device 120 includes a CPU (Central Processing Unit) 401, a ROM (Read Only Memory) 402, and a RAM (Random Access Memory) 403. The CPU 401, ROM 402, and RAM 403 form a so-called computer.

Further, the server device 120 includes an auxiliary storage device 404, a display device 405, an operation device 406, a communication device 407, and a drive device 408. The hardware of the server device 120 is connected to each other via the bus 409.

The CPU 401 is an arithmetic device that executes various programs (for example, a construction status confirmation program) installed in the auxiliary storage device 404.

ROM 402 is a non-volatile memory. The ROM 402 functions as a main storage device for storing various programs, data, and the like necessary for the CPU 401 to execute various programs installed in the auxiliary storage device 404. Specifically, the ROM 402 functions as a main memory device for storing boot programs such as BIOS (Basic Input / Output System) and EFI (Extensible Firmware Interface).

The RAM 403 is a volatile memory such as a DRAM (Dynamic Random Access Memory) or a SRAM (Static Random Access Memory). The RAM 403 functions as a main storage device that provides a work area that is expanded when various programs installed in the auxiliary storage device 404 are executed by the CPU 401.

The auxiliary storage device 404 is an auxiliary storage device that stores various programs and information used when various programs are executed. The construction information storage unit 131 is realized in the auxiliary storage device 404.

The display device 405 is a display device that displays the internal state of the server device 120. The operation device 406 is an input device used by the administrator (not shown) of the server device 120 when inputting various instructions to the server device 120.

The communication device 407 is a communication device for connecting to the network 140 and communicating with the information input device 110, the terminal device 130, and the like.

The drive device 408 is a device for setting the recording medium 410. The recording medium 410 referred to here includes a medium such as a CD-ROM, a flexible disk, a magneto-optical disk, or the like that optically, electrically, or magnetically records information. Further, the recording medium 410 may include a semiconductor memory or the like for electrically recording information such as a ROM or a flash memory.

The various programs installed in the auxiliary storage device 404 are installed, for example, by setting the distributed recording medium 410 in the drive device 408 and reading the various programs recorded in the recording medium 410 by the drive device 408. Will be done. Alternatively, the various programs installed in the auxiliary storage device 404 may be installed by being downloaded from the network 140 via the communication device 407.

(2) Hardware Configuration of Terminal Device As shown in FIG. 4B, the terminal device 130 has the same hardware configuration (CPU 421 to communication device 427) as the server device 120. Therefore, here, the differences from the server device 120 will be described.

The difference from the server device 120 is that the terminal device 130 has an image pickup device 428 that functions as an image pickup unit. The image pickup apparatus 428 operates under the operation of the contractor 150 and generates captured image data.

<Details of processing by server device, terminal device, and information input device>
Next, in the sequence diagram shown in FIG. 3, the details of the following processing executed by the server device 120, the terminal device 130, or the information input device 110 will be described.
Step S303 (location information providing process executed by the server device 120),
Step S304 (position information acquisition process and construction result information transmission process executed by the terminal device 130),
Steps S305 to S306 (construction result information acquisition process and collation process executed by the server device 120),
Step S307 (display processing executed by the information input device 110).

(1) Details of Location Information Providing Process First, details of the location information providing process executed by the server device 120 in step S303 will be described. As described above, the position information providing unit 122 extracts the position information from the construction information (equipment management ledger data 210) stored in the construction information storage unit 131 and provides it to the terminal device 130.

FIG. 5 is a diagram showing an example of position information. As shown in FIG. 5, the position information 500 includes "mounting position classification", "floor", and "room / zone" as information items.

In the "mounting position classification", an identifier for specifying each mounting position when the construction information is classified for each mounting position is stored.

The "floor" stores the name of the building where each device is installed, the number of floors, and so on. The "room / zone" stores the name of the room or zone in which each device is installed.

(2) Details of Position Information Acquisition Process and Construction Result Information Transmission Process Next, details of the position information acquisition process and construction result information transmission process executed by the terminal device 130 in step S304 will be described. FIG. 6 is a first diagram showing a specific example of the position information acquisition process and the construction result information transmission process by the terminal device.

As shown in FIG. 6, the terminal device 130 acquires the position information 500 from the server device 120 and displays it as a list of mounting positions (see the list display screen 610). As a result, the contractor 150 selects the position where the device is actually mounted from the listed mounting positions.

Subsequently, the contractor 150 inputs the model of the actually installed device to the terminal device 130. The contractor 150 inputs the model of the actually installed device via the model input screen 620.

The terminal device 130 transmits the construction result information 630_1 including the mounting position information and the model information to the server device 120. The example of FIG. 6 shows that the installation position information = "North Building 1st floor 1st grade 1 group" and the model information = "FFF001DD" are transmitted to the server device 120 as the construction result information 630_1.

Further, in the example of FIG. 6, the terminal device 130 repeatedly executes the process of transmitting the construction result information to the server device 120 each time the installation work of the device is completed at each mounting position, and finally, the construction result information 630_n is input. It shows how it was sent.

(3) Details of construction result information acquisition process and collation process Next, in steps S305 to S306, details of the construction result information acquisition process and collation process executed by the server device 120 will be described.

(3-1) Specific Examples of Construction Result Acquisition Process and Verification Process FIG. 7 is a diagram showing specific examples of construction result information acquisition processing and verification processing by the server device.

As shown in FIG. 7, the construction result information acquisition unit 123 of the server device 120 acquires, for example, the construction result information 630_1 from the terminal device 130. Further, the extraction unit 701 of the construction result information acquisition unit 123 extracts the mounting position information and the model information from the construction result information 630_1. Further, the extraction unit 701 notifies the collation unit 124 of the extracted mounting position information and the model information.

The example of FIG. 7 shows that the mounting position information = "North Building 1st floor 1st grade 1 group" and the model information = "FFF001DD" were extracted by the extraction unit 701.

The collation unit 124 searches the facility management ledger data 210, which is construction information, using the installation position information = "North Building 1st floor 1st grade 1 group" as a search key, and acquires the corresponding model information = "FFF001DD". Further, the collation unit 124 collates the model information acquired from the equipment management ledger data 210 with the model information notified from the construction result information acquisition unit 123, and determines whether or not they match.

The example of FIG. 7 shows a state in which it is determined that they match, and the collation unit 124 determines that the collation result of the equipment attached to the "North Building 1st floor 1st grade 1st group" = OK.

(3-2) Flowchart of collation processing FIG. 8 is a flowchart showing a flow of collation processing by the server device. In step S801, the collation unit 124 acquires the construction result information from the construction result information acquisition unit 123.

In step S802, the collating unit 124 searches the equipment management ledger data 210 using the mounting position information included in the construction result information as a search key, and collates it with the model information included in the construction result information.

In step S803, the collation unit 124 determines whether or not the model information matches as a result of the collation.

If it is determined in step S803 that the model information does not match (No in step S803), the process proceeds to step S804. In step S804, the collation unit 124 determines that the collation result = NG.

On the other hand, if it is determined in step S803 that the model information matches (in the case of Yes in step S803), the process proceeds to step S805. In step S805, the collation unit 124 determines that the collation result = OK.

In step S806, the collation unit 124 adds the collation result to the equipment management ledger data 210 and transmits it to the information input device 110.

(4) Details of Display Processing Next, details of the display processing executed by the information input device 110 in step S309 will be described. FIG. 9 is a diagram showing a specific example of display processing by the information input device. As shown in FIG. 9, the information input device 110 displays the equipment management ledger data 210 transmitted from the server device 120 in association with the collation result data 900.

As a result, the business operator 160 can confirm whether or not the construction has been performed according to the equipment design (construction status). As a result, it is possible to reduce the frequency of construction different from the equipment design and improve the construction accuracy.

<Summary>
As is clear from the above explanation, the construction status confirmation system according to the first embodiment is
-The construction information acquisition unit acquires construction information (equipment management ledger data) including equipment installation position information and equipment model information.
-The construction result information acquisition unit acquires the model information of the equipment installed at the installation position of the equipment in association with the installation position information.
-The collation unit collates the model information acquired by the construction information acquisition unit corresponding to the predetermined mounting position information with the model information acquired by the construction result information acquisition unit corresponding to the predetermined installation position information, and collates the result. Is output.

This allows the business operator to confirm whether or not the construction was performed according to the equipment design (construction status). That is, according to the first embodiment, it is possible to provide a construction status confirmation device and a construction status confirmation program capable of confirming the construction status.

[Second Embodiment]
In the first embodiment, the case where the contractor 150 directly inputs the model of the actually installed device and the server device 120 acquires the model information of the actually installed device has been described.

However, the method of acquiring model information by the server device 120 is not limited to this. For example, the contractor 150 photographs a specific area of the attached device (for example, an area with a serial number (individual information) for identifying an individual device), and sets the serial number specified by the photographed image data. The model information may be acquired by inquiring the model information based on the above.

Hereinafter, the second embodiment will be described focusing on the differences from the first embodiment. In the second embodiment, as an area with a serial number (individual information) for identifying an individual device, a area with a QR code (registered trademark) or a name plate will be described as an example.

<System configuration of construction status confirmation system>
First, the system configuration of the construction status confirmation system according to the second embodiment will be described. FIG. 10 is a second diagram showing an example of the system configuration of the construction status confirmation system. The difference from the system configuration shown in FIG. 1 is that, in the case of FIG. 10, the function of the construction result information acquisition unit 1001 of the server device 120 is different from the function of the construction result information acquisition unit 123 of FIG. Further, in the case of the construction status confirmation system 1000 of FIG. 10, the point is that the inquiry device 1010 is provided. Further, in the case of FIG. 10, a QR code (or a name plate) is attached to the air conditioner 1 (reference numeral 170_1) to the air conditioner n (reference numeral 170_n).

The construction result information acquisition unit 1001 attaches photographed image data (attached to the header unit) obtained by the contractor 150 as the construction result information recorded by the contractor 150, in which the contractor 150 photographs the area to which the QR code (or name plate) of each air conditioner is attached. Acquires the captured image data in which the position information is recorded).

Further, the construction result information acquisition unit 1001 extracts the mounting position information recorded in the header unit of the captured image data acquired as the construction result information.

Further, the construction result information acquisition unit 1001 identifies the serial number of the device based on the image data of the QR code (or name plate) included in the main body of the photographed image data acquired as the construction result information. Further, the construction result information acquisition unit 1001 acquires the corresponding model information by transmitting the specified serial number to the inquiry device 1010.

Further, the construction result information acquisition unit 1001 notifies the collation unit 124 of the extracted mounting position information and the acquired model information.

The inquiry device 1010 receives the serial number from the server device 120, and transmits the model information corresponding to the received serial number to the server device 120. It is assumed that the inquiry device 1010 stores a table in which the serial number for identifying the individual device and the model information of the device are associated with each other.

<Processing flow of construction status confirmation system>
Next, the flow of the construction status confirmation process by the construction status confirmation system 1000 according to the second embodiment will be described. FIG. 11 is a second sequence diagram showing the flow of the construction status confirmation process by the construction status confirmation system. The difference from the first sequence diagram shown in FIG. 3 is steps S1101 to S1104.

In step S1101, the terminal device 130 displays the provided position information as a list of mounting positions, and the contractor 150 selects the position where the device is actually mounted from the displayed list of mounting positions. In addition, the contractor 150 photographs the QR code (or name plate) attached to the actually attached device. Further, the terminal device 130 transmits the photographed image data in which the image data of the photographed QR code (or name plate) is recorded in the header unit and the image data of the photographed QR code (or name plate) in the main body unit as the construction result information to the server device 120.

In step S1102, the construction result information acquisition unit 1001 of the server device 120 acquires the captured image data transmitted as the construction result information from the terminal device 130. Further, the construction result information acquisition unit 1001 of the server device 120 extracts the mounting position information from the header unit of the acquired photographed image data, and extracts the image data of the QR code (or name plate) from the main body unit.

In step S1103, the construction result information acquisition unit 1001 of the server device 120 identifies the serial number of the device based on the extracted image data, and transmits the specified serial number to the inquiry device 1010 from the inquiry device 1010. Get model information. Further, the construction result information acquisition unit 1001 of the server device 120 notifies the collation unit 124 of the extracted mounting position information and the acquired model information.

In step S1104, when the inquiry device 1010 receives the serial number from the server device 120, the inquiry device 1010 identifies the model of the device corresponding to the serial number and transmits the model information to the server device 120.

<Details of processing by server device and terminal device>
Next, in the sequence diagram shown in FIG. 11, the details of the following processing executed by the server device 120 or the terminal device 130 will be described.
Step S1101 (position information acquisition process and construction result information transmission process executed by the terminal device 130),
Steps S1102 to S1103 and S306 (construction result information acquisition process, inquiry process, and collation process executed by the server device 120).

(1) Details of Position Information Acquisition Process and Construction Result Information Transmission Process First, details of the position information acquisition process and construction result information transmission process executed by the terminal device 130 in step S1101 will be described. FIG. 12 is a second diagram showing a specific example of the position information acquisition process and the construction result information transmission process by the terminal device.

As shown in FIG. 12, the terminal device 130 acquires the position information 500 from the server device 120 and displays it as a list of mounting positions (see the list display screen 610). As a result, the contractor 150 selects the position where the device is actually mounted from the listed mounting positions.

Subsequently, the contractor 150 photographs the area to which the QR code (or name plate) is attached in each area of the actually installed device (see the photographing screen 1210). As a result, the terminal device 130 generates captured image data 1220_1.

As shown in FIG. 12, the captured image data 1220_1 has a header portion 1221 and a main body portion 1222, and mounting position information is recorded in the header portion 1221. Further, the image data of the QR code (or name plate) is recorded in the main body unit 1222.

The terminal device 130 transmits the captured image data 1220_1 to the server device 120 as construction result information. In the example of FIG. 12, the terminal device 130 repeatedly executes the process of transmitting the captured image data to the server device 120 each time the installation work of the device is completed at each mounting position, and finally, the captured image data 1220_n is input. It shows how it was sent.

(2) Details of construction result information acquisition process, inquiry process and collation process Next, in steps S1102, S1103 and S306, details of the construction result information acquisition process, inquiry process and collation process executed by the server device 120 will be described. do.

FIG. 13 is a diagram showing specific examples of construction result information acquisition processing, inquiry processing, and collation processing by the server device.

As shown in FIG. 13, the construction result information acquisition unit 1001 of the server device 120 acquires, for example, captured image data 1220_1 from the terminal device 130 as construction result information. Further, the extraction unit 1301 of the construction result information acquisition unit 1001 extracts the mounting position information from the header unit 1221 of the captured image data 1220_1 and notifies the collation unit 124. The example of FIG. 13 shows that the installation position information = "North Building 1st floor 1st year 1st group" has been notified.

Further, the extraction unit 1301 of the construction result information acquisition unit 1001 extracts the image data of the QR code (or name plate) from the main body unit 1222 of the photographed image data 1220_1 and notifies the inquiry unit 1302.

The inquiry unit 1302 identifies the serial number of the device by analyzing the image data of the QR code (or name plate). Further, the inquiry unit 1302 acquires the model information of the device from the inquiry device 1010 by transmitting the specified serial number to the inquiry device 1010, and notifies the collation unit 124 of the model information. The example of FIG. 13 shows that the model information = "FFF001DD" has been notified.

The collation unit 124 searches the facility management ledger data 210, which is construction information, using the installation position information = "North Building 1st floor 1st grade 1 group" as a search key, and acquires the corresponding model information = "FFF001DD". Further, the collation unit 124 collates the model information acquired from the equipment management ledger data 210 with the model information notified from the construction result information acquisition unit 1001 and determines whether or not they match.

The example of FIG. 13 shows a state in which it is determined that they match, and the collation unit 124 determines that the collation result of the equipment attached to the "North Building 1st floor 1st grade 1st group" = OK.

<Summary>
As is clear from the above explanation, the construction status confirmation system according to the second embodiment is
-The construction information acquisition unit acquires construction information (equipment management ledger data) including equipment installation position information and equipment model information.
-The construction result information acquisition unit captures image data (header) of the area (area with the QR code or name plate) with the serial number (individual information) that identifies the individual of the equipment installed at the installation position of the equipment. Acquires the captured image data) in which the mounting position information is recorded in the unit.
-The construction result information acquisition unit associates the mounting position information with the model information by inquiring the model corresponding to the serial number (individual information) that identifies the individual device, which is specified based on the captured image data. To get.
-The collation unit collates the model information acquired by the construction information acquisition unit corresponding to the predetermined mounting position with the model information acquired by the construction result information acquisition unit corresponding to the predetermined installation position, and outputs the collation result. do.

This allows the business operator to confirm whether or not the construction was performed according to the equipment design (construction status). That is, according to the second embodiment, it is possible to provide a construction status confirmation device and a construction status confirmation program capable of confirming the construction status.

[Third Embodiment]
In the second embodiment, the contractor 150 has described the area with the serial number (the area with the QR code or the name plate) for identifying the individual device. However, the object photographed by the contractor 150 is not limited to the area with the QR code or the name plate.

For example, the entire device may be photographed so that the outer shape of the device can be seen. In this case, the server device 120 specifies a serial number (individual information) that identifies an individual device from features based on the outer shape of the device. Hereinafter, the third embodiment will be described focusing on the differences from the first or second embodiment.

<System configuration of construction status confirmation system>
First, the system configuration of the construction status confirmation system according to the third embodiment will be described. FIG. 14 is a third diagram showing an example of the system configuration of the construction status confirmation system. The difference from the system configuration shown in FIG. 1 is that in the case of the construction status confirmation system 1400 of FIG. 14, the function of the construction result information acquisition unit 1401 of the server device 120 is different from the function of the construction result information acquisition unit 123 of FIG. Is a different point. Further, the server device 120 has an external feature information storage unit 1402.

The construction result information acquisition unit 1401 captures photographed image data (photographed image data in which the mounting position information is recorded in the header portion) obtained by the contractor 150 as the construction result information recorded by the contractor 150. To get.

Further, the construction result information acquisition unit 1401 extracts the mounting position information recorded in the header unit of the captured image data acquired as the construction result information.

Further, the construction result information acquisition unit 1401 calculates the feature amount based on the outer shape of the device based on the image data obtained by photographing the outer shape of the device, which is included in the main body of the photographed image data acquired as the construction result information. Further, the construction result information acquisition unit 1401 searches the external feature information storage unit 1402 based on the calculated feature amount, and acquires the corresponding serial number (individual information). Further, the construction result information acquisition unit 1401 notifies the collation unit 124 of the extracted mounting position information and the acquired serial number (individual information).

It is assumed that the external feature information storage unit 1402 stores the feature amount based on the external shape of each device and the serial number (individual information) for identifying the individual of each device in association with each other. The feature amount based on the outer shape of each device referred to here refers to an individual such as the size and position of burrs generated at the manufacturing stage of each device, or scratches generated at the manufacturing stage of each device. Refers to possible external features (external features unique to each device).

<Processing flow of construction status confirmation system>
Next, the flow of the construction status confirmation process by the construction status confirmation system 1400 according to the third embodiment will be described. FIG. 15 is a third sequence diagram showing the flow of the construction status confirmation process by the construction status confirmation system. The difference from the second sequence diagram shown in FIG. 11 is steps S1501 and S1502.

In step S1501, the terminal device 130 displays the provided position information as a list of mounting positions, and the contractor 150 selects the position where the device is actually mounted from the displayed list of mounting positions. In addition, the contractor 150 photographs the outer shape of the actually installed device. Further, the terminal device 130 transmits the photographed image data in which the mounting position information is recorded in the header portion and the image data of the outer shape of the photographed device is recorded in the main body portion as the construction result information to the server device 120.

In step S1502, the construction result information acquisition unit 1401 of the server device 120 analyzes the extracted image data and calculates the feature amount based on the outer shape of the device. Further, the construction result information acquisition unit 1401 of the server device 120 acquires a serial number (individual information) for identifying an individual device by searching the external feature information storage unit 1402 based on the calculated feature amount. Further, the construction result information acquisition unit 1401 of the server device 120 notifies the collation unit 124 of the extracted mounting position information and the acquired serial number (individual information).

<Details of processing by server device and terminal device>
Next, in the sequence diagram shown in FIG. 15, details of the following processing executed by the server device 120 or the terminal device 130 will be described.
Step S1501 (position information acquisition process and construction result information transmission process executed by the terminal device 130),
Steps S1102, S1502, S306 (construction result information acquisition process, external feature extraction and individual information acquisition process, collation process executed by the server device 120).

(1) Details of Position Information Acquisition Process and Construction Result Information Transmission Process First, details of the position information acquisition process and construction result information transmission process executed by the terminal device 130 in step S1501 will be described. FIG. 16 is a third diagram showing a specific example of the position information acquisition process and the construction result information transmission process by the terminal device.

As shown in FIG. 16, the terminal device 130 acquires the position information 500 from the server device 120 and displays it as a list of mounting positions (see the list display screen 610). As a result, the contractor 150 selects the position where the device is actually mounted from the listed mounting positions.

Subsequently, the contractor 150 photographs the outer shape of the actually attached device (see the photographing screen 1610). As a result, the terminal device 130 generates captured image data 1220_1.

As shown in FIG. 16, the captured image data 1220_1 has a header portion 1221 and a main body portion 1222, and mounting position information is recorded in the header portion 1221. In addition, image data obtained by photographing the outer shape of the device is recorded in the main body unit 1222.

The terminal device 130 transmits the captured image data 1220_1 to the server device 120 as construction result information. In the example of FIG. 16, the terminal device 130 repeatedly executes the process of transmitting the captured image data to the server device 120 each time the installation work of the device is completed at each mounting position, and finally, the captured image data 1220_n is input. It shows how it was sent.

(2) Details of construction result information acquisition processing, external feature extraction and individual information acquisition processing, and collation processing Next, construction result information acquisition processing, external feature extraction, and execution by the server device 120 in steps S1102, S1502, and S306. Details of the individual information acquisition process and the collation process will be described. FIG. 17 is a diagram showing specific examples of construction result information acquisition processing, external feature extraction and individual information acquisition processing, and collation processing by the server device.

As shown in FIG. 17, the construction result information acquisition unit 1001 of the server device 120 acquires, for example, captured image data 1220_1 from the terminal device 130 as construction result information. Further, the extraction unit 1301 of the construction result information acquisition unit 1001 extracts the mounting position information from the header unit 1221 of the captured image data 1220_1 and notifies the collation unit 124. The example of FIG. 17 shows that the installation position information = "North Building 1st floor 1st year 1st group" was notified.

Further, the extraction unit 1301 of the construction result information acquisition unit 1001 extracts the image data obtained by photographing the outer shape of the device from the main body unit 1222 of the photographed image data 1220_1, and notifies the external feature extraction unit 1701 of the image data.

The external feature extraction unit 1701 calculates the feature amount based on the external shape of the device by analyzing the image data obtained by photographing the external shape of the device. Further, the external feature extraction unit 1701 acquires the corresponding serial number (individual information) by searching in the external feature information storage unit 1402 based on the calculated feature amount, and notifies the collation unit 124. The example of FIG. 17 shows that the serial number = "A1234" has been notified.

The collation unit 124 searches the facility management ledger data 210, which is construction information, using the installation position information = "North Building 1st floor 1st grade 1 group" as a search key, and acquires the corresponding serial number = "A1234". Further, the collation unit 124 collates the serial number (individual information) acquired from the equipment management ledger data 210 with the serial number (individual information) notified from the construction result information acquisition unit 1001 and determines whether or not they match. judge.

The example of FIG. 17 shows a state in which it is determined that they match, and the collation unit 124 determines that the collation result of the equipment attached to the "North Building 1st floor 1st grade 1st group" = OK.

<Summary>
As is clear from the above explanation, the construction status confirmation system according to the third embodiment is
-The construction information acquisition unit acquires construction information (equipment management ledger data) including installation position information of the equipment and a serial number (individual information) for identifying the individual of the equipment.
-The construction result information acquisition unit acquires captured image data (photographed image data in which the mounting position information is recorded in the header section) obtained by photographing the outer shape of the device mounted at the mounting position of the device.
-The construction result information acquisition unit specifies the serial number (individual information) that identifies the individual device from the feature amount based on the outer shape of the device, which is calculated based on the captured image data, so that the mounting position information and the serial number are specified. Acquires in association with (individual information).
-The collation unit obtains the serial number (individual information) acquired by the construction information acquisition unit corresponding to the predetermined mounting position and the serial number (individual information) acquired by the construction result information acquisition unit corresponding to the predetermined mounting position. Collate and output the collation result.

This allows the business operator to confirm whether or not the construction was performed according to the equipment design (construction status). That is, according to the third embodiment, it is possible to provide a construction status confirmation device and a construction status confirmation program capable of confirming the construction status.

[Other Embodiments]
In the second embodiment, the image data of the QR code (or name plate) is analyzed, the serial number is specified, and then the model information is acquired. However, the method of acquiring model information is not limited to this, and for example, the image data of the QR code (or name plate) may be analyzed and the model information may be acquired directly.

Further, in the second embodiment, it has been described that the contractor 150 photographs the area to which the QR code (or name plate) is attached and transmits the photographed image data. However, the method of transmitting the construction result information is not limited to this, and for example, the contractor 150 may be configured to directly input the serial number and transmit it in association with the mounting position information.

Further, in the third embodiment, it has been described that the external feature information storage unit 1402 is provided in the server device 120. However, the arrangement of the external feature information storage unit 1402 is not limited to this, and may be provided in, for example, the inquiry device 1010. In this case, the external feature extraction unit 1701 inquires the serial number (individual information) by transmitting the feature amount to the inquiry device 1010.

Further, in the third embodiment, it has been described that the serial number (individual information) for identifying the individual device is specified from the feature amount based on the outer shape of each device. However, the model may be identified from the feature amount based on the outer shape of each model of the device (the model can be identified by replacing "individual" described in the third embodiment with "model". Can be realized).

Although the embodiments have been described above, it will be understood that various modifications of the embodiments and details are possible without departing from the purpose and scope of the claims.

100: Construction status confirmation system 110: Information input device 120: Server device 121: Construction information acquisition unit 122: Location information provision unit 123: Construction result information acquisition unit 124: Verification unit 130: Terminal equipment 200: Completed book 210: Equipment management Ledger data 500: Position information 701: Extraction unit 900: Collation result data 1000: Construction status confirmation system 1001: Construction result information acquisition unit 1010: Inquiry device 1301: Extraction unit 1302: Inquiry unit 1401: Construction result information acquisition unit 1701: External shape Feature extraction section

Claims (5)

A first acquisition unit that acquires construction information including the mounting position of the device and information that identifies the model of the device, and
A first identification information that identifies the model of the device mounted at the mounting position of the device, a second acquisition unit that acquires the mounting position in association with each other, and a second acquisition unit.
The information that identifies the model of the device acquired by the first acquisition unit corresponding to the predetermined mounting position is collated with the first identification information acquired by the second acquisition unit corresponding to the predetermined mounting position. A construction status confirmation device that has an output unit that outputs the collation result. The second acquisition unit is
Acquire the second identification information for identifying the individual of the device mounted at the mounting position of the device, and obtain the second identification information.
The construction status confirmation device according to claim 1, wherein the model corresponding to the second identification information is inquired to obtain the first identification information in association with the mounting position. The second acquisition unit identifies the individual of the device attached to the attachment position of the device by acquiring the second identification information specified based on the code related to the individual information or the photographed image of the name plate. The construction status confirmation device according to claim 2, which acquires the identification information of the above. The second acquisition unit identifies the characteristics based on the outer shape of each individual device attached to the device mounting position from the photographed image of the device, so that the device mounted at the device mounting position is an individual device. The construction status confirmation device according to claim 2, which acquires a second identification information for identifying the above. The first acquisition process for acquiring construction information including the mounting position of the device and the information for identifying the model of the device, and
The first identification information for identifying the model of the device mounted at the mounting position of the device, the second acquisition step for acquiring the mounting position in association with each other, and the second acquisition step.
Information that identifies the model of the device acquired in the first acquisition step corresponding to the predetermined mounting position, and the first identification acquired in the second acquisition step corresponding to the predetermined mounting position. A construction status confirmation program that allows a computer to execute an output process that collates information and outputs the collation result.

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