JP2024142202A - REPAIR WORK MANAGEMENT DEVICE, REPAIR WORK MANAGEMENT METHOD, AND REPAIR WORK MANAGEMENT PROGRAM - Google Patents

Abstract

To generate a process of a repair work on the basis of an investigation result.SOLUTION: A repair work management device includes: a design data acquisition section which acquires design data of an architecture to be a repair inspection object; an input receiving section which receives inputs of repair portion position data indicating the position of a repair portion and work type data of a work type as a repair work name at a repair portion as a result of a repair inspection of the architecture on a display screen for displaying the acquired design data; a process generation section which extracts process data of the process of the work type associated with the work type and generates a process of the work type on the basis of the received input result; and a display control section which displays the repair portion to be discriminable according to the progress of the process of the work type on the display screen.SELECTED DRAWING: Figure 2

Description

The present invention relates to a repair work management device, a repair work management method, and a repair work management program.

In the above technical fields, Patent Document 1 discloses a technique for displaying information including at least one of the inspection results and repair details of a selected portion of a concrete structure on a screen in association with the selected portion (claim 1, etc.). Patent Document 2 discloses a technique for scanning the surface of a building to create a tile layout diagram, inputting abnormalities in the tiles, and displaying repaired tiles separately from unrepaired tiles (claims 5, 7, etc.).

JP 2020-154465 A JP 2022-109415 A

However, the technologies described in Patent Documents 1 and 2 only display the details of concrete repairs and unrepaired tiles on a screen, and are unable to generate a repair work schedule based on the survey results.

In order to achieve the above object, a repair work management device according to the present invention comprises:
A design data acquisition unit that acquires design data of a building that is a target for repair and inspection;
an input receiving unit that receives repair location position data indicating the location of the repair location and work type data regarding the work type as the name of the repair work at the repair location, as a result of the repair inspection of the building, which are input on a display screen that displays the acquired design data;
A process generation unit that extracts process data related to the process of the work type linked to the work type based on the received input result and generates a process of the work type;
Equipped with:

In order to achieve the above object, a repair work management method according to the present invention includes:
A design data acquisition step of acquiring design data of a building to be inspected for repair;
An input reception step of receiving, on a display screen that displays the acquired design data, input of repair location position data indicating the location of the repair location as a result of the repair inspection of the building, and work type data regarding the work type as the name of the repair work at the repair location;
A process generation step of extracting process data related to the process of the work type linked to the work type based on the received input result and generating a process of the work type;
Includes.

Furthermore, in order to achieve the above object, the repair work management program according to the present invention comprises:
A design data acquisition step of acquiring design data of a building to be inspected for repair;
An input reception step of receiving, on a display screen that displays the acquired design data, input of repair location position data indicating the location of the repair location as a result of the repair inspection of the building, and work type data regarding the work type as the name of the repair work at the repair location;
A process generation step of extracting process data related to the process of the work type linked to the work type based on the received input result and generating a process of the work type;
to be executed by the computer.

According to the present invention, a repair work schedule can be generated based on the survey results, and the progress of the repair work can be accurately managed.

1 is a diagram for explaining an overview of a repair work management device according to a first embodiment of the present invention; FIG. 2 is a diagram for explaining input of a type of deterioration and a repair location in the repair work management device according to the first embodiment of the present invention. 1 is a block diagram for explaining a configuration of a repair work management device according to a first embodiment of the present invention. FIG. 3 is a diagram for explaining an example of a process table included in the repair work management device according to the first embodiment of the present invention; FIG. 1 is a diagram for explaining a hardware configuration of a repair work management device according to a first embodiment of the present invention; 4 is a flowchart for explaining a processing procedure of the repair work management device according to the first embodiment of the present invention. FIG. 11 is a block diagram for explaining the configuration of a repair work management device according to a second embodiment of the present invention. FIG. 11 is a diagram for explaining a hardware configuration of a repair work management device according to a second embodiment of the present invention. 10 is a flowchart for explaining a processing procedure of a repair work management device according to a second embodiment of the present invention.

Below, the embodiments for carrying out the present invention will be described in detail by way of example with reference to the drawings. However, the configurations, numerical values, processing flows, functional elements, etc. described in the following embodiments are merely examples, and may be freely modified or altered, and are not intended to limit the technical scope of the present invention to the following description.

[First embodiment]
A repair work management device according to a first embodiment of the present invention will be described with reference to Figures 1A to 5. Figure 1 is a diagram for explaining an overview of the operation of a repair work management device 100 according to this embodiment. The repair work management device 100 is a device that investigates deterioration of a building 110 and manages the process of repair work based on the investigation.

The building 110 deteriorates due to changes over time in the materials used in its construction. Examples of deterioration of the building 110 that can be seen from the outside include deterioration of the concrete and tiles used in the exterior walls. As time passes after the construction of the building 110, for example, cracks and efflorescence occur in the concrete, and tiles become loose, peel off, or crack.

In this way, if deterioration occurs in the building 110, an investigation is carried out on-site, and repair methods are considered and selected based on the investigation results. Then, a process plan is created based on the selected repair method, and construction is carried out based on the created process plan.

In this regard, on-site investigations were carried out by, for example, noting the extent and condition of the deterioration on copies of the construction drawings that had been brought with them, and attaching photographs, etc., if necessary. Then, when carrying out repair work, the details noted on the copies of the construction drawings were transferred onto a separate drawing for the affected area, and repairs were carried out in accordance with the prepared process plan.

Recently, with the digitization of on-site management, on-site inspections are being carried out by specifying the deteriorated area on a drawing displayed on a tablet device or similar device and taking notes on the situation. In addition, repair work is being carried out by displaying the repair area and construction schedule on a tablet device or similar device, and carrying out the work in accordance with this.

With this method, when repair work is carried out, electronic data of the construction drawings is displayed on a tablet device or the like, but the extent of deterioration that is discovered and added later is saved as part of the original electronic data of the construction drawings. As a result, there is no link between data from the investigation stage and data from the repair work, or between data obtained during the investigation and data obtained during the repair work, and it has not been possible to centrally manage the process from the investigation of deterioration to the execution of the repair work.

In this embodiment, for example, the inspector 120 investigates the deterioration of the tiles 130 on the exterior wall of the building 110, and inputs the results of the investigation, such as the type and size (range) of the deterioration, on the design drawing displayed on the mobile terminal 140 such as a tablet terminal. For example, as shown in FIG. 1B, when the inspector 120 finds peeling or cracks on the tiles 130 on the exterior wall of the building 110, he first taps a predetermined button on the display screen 141 of the mobile terminal 140. Then, a list of possible deterioration (pre-set deterioration) in the building 110 and a graphic marker for entering the position of the deterioration on the construction drawing of the building 110 are displayed as a pull-down menu 142. That is, in this embodiment, the inspector 120 does not specify the position of the deterioration and input the type of deterioration, but first selects (declares) the type of deterioration to be input, and then inputs the position and size of the deterioration.

The graphic markers are designed to make it easy to recall the type of deterioration. For example, in the case of a crack, multiple linear markers are displayed according to the width of the crack. Similarly, in the case of peeling tiles or traces of peeling tiles, pentagonal markers are displayed. The inspector 120 first selects a graphic marker corresponding to the deterioration from the pull-down menu 142 to determine the type of deterioration. Once the type of deterioration has been determined, the inspector 120 specifies the range of deterioration. In the case of a crack, the inspector 120 uses a linear marker to specify the range of deterioration by tracing the position of the crack, and in the case of peeling, a pentagonal marker is used and the size and position of the pentagon is adjusted so that the peeling portion is surrounded by the pentagonal marker.

In this way, in the repair work management device 100, the type of deterioration displayed in the pull-down menu 142 is first selected, and then the location and range of the selected deterioration are specified. Here, when the inspector 120 selects a marker from the pull-down menu 142, the selected marker is linked to data on the process for repairing that deterioration, and the repair work management device 100 generates a schedule 150 for the repair work by extracting the linked process. When carrying out repair work, the repair work worker carries out the work according to the schedule 150 displayed on the mobile terminal 140.

Next, the configuration of the repair work management device 100 will be described with reference to FIG. 2. The repair work management device 100 has a design data acquisition unit 201, an input reception unit 202, a process generation unit 203, and a display control unit 204.

The design data acquisition unit 201 acquires design data for the building 110 that is the subject of repair and inspection. The design data is data such as design drawings and on-site photos created when the building 110 was constructed. The inspector 120 inspects the building 110 while looking at the design drawings and on-site photos of the building 110 displayed on the display screen of the mobile terminal 140, etc.

The input reception unit 202 receives repair location position data indicating the location of the repair location and work type data relating to the type of work as the name of the repair work at the repair location, as a result of the repair inspection of the building 110, input on a display screen that displays the acquired design data.

An inspector 120 inspecting the building 110 (deterioration survey, etc.) carries a mobile terminal 140 while carrying out the inspection work, and at the same time inputs the inspection results into image data such as a blueprint displayed on the display screen (display) of the mobile terminal 140. For example, if a tile has fallen off or the like, the data can be input by encircling the relevant part on the blueprint on the display screen with a pentagonal marker to input the part to be repaired. Furthermore, the type of work and process for the input part to be repaired are automatically extracted when the marker is selected.

In addition, in the pull-down menu 142, the type of marker (the type of deterioration to be repaired) is determined according to the type of building 110 to be inspected, etc.

In this way, by directly inputting the inspection results, such as damaged areas, into the image data of the blueprint, the inspector 120 does not need to input complex data such as location information, and can efficiently input the inspection results by simply selecting the details of the repair work and specifying the areas that need repair.

The inspector 120 can input the type, location, and size of the deterioration by placing a marker on the area that is judged to be deteriorated to the extent that repair is required. The marker is like a figure that indicates the area to be repaired (repair range) and is not limited to a pentagon, but may be a shape that clearly shows the repair content at a glance (square, triangle, circle, straight line, etc.). The marker is displayed superimposed on image data such as a blueprint, but the image data itself is not changed, and the position information, size (area), length, etc. of the marker are recorded. The amount of repair material required can be estimated using the recorded size and length of the marker.

The pull-down menu 142 displays the types of deterioration expected for the building 110 that is the subject of the repair inspection. However, for example, if an appropriate type of deterioration is not displayed or if special repair work is required, the inspector 120 may be able to add a type of deterioration that corresponds to these circumstances as appropriate.

For example, when the inspector 120 selects repair of broken tiles (such as mortar-based repair work) as an item from the pull-down menu 142, the repair work management device 100 may automatically calculate the number of broken tiles from the area of the part that the inspector 120 has circled with a marker and the area of the tiles. For example, in the item of repair of broken tiles, the inspector 120 may check tiles that have completely peeled off on site and input the number of tiles.

In this way, the repair work management device 100 may automatically calculate quantities such as the number of tiles that can be calculated automatically, and quantities that require confirmation by an inspector 120 may be manually input by the inspector 120, etc. For example, the number of peeled tiles may be automatically calculated from the difference between the color of the tile and the color of the base and the area of the base. As described above, the repair work management device 100 can be configured to use manual input and automatic input appropriately.

Based on the received input results, the process generation unit 203 extracts process data related to the process linked to the selected type of deterioration, and generates a repair work process. For example, if the inspector 120 selects "crack injection work" as the type of deterioration, the process generation unit 203 extracts "initial process, base preparation, sealing, injection port installation, injection, removal of sealant" and the like as process data linked to the crack injection work. The process is then generated by rearranging these in the order of work. The order of the generated processes can be changed by on-site workers or the operator of the repair work management device 100, and new processes other than those displayed here can be added. The process data is stored in a specified database, etc.

Next, an example of a process table 301 held by the repair work management device 100 will be described with reference to FIG. 3. The process table 301 stores a work type 312 and a process 313 related to a deterioration type in association with an ID (identifier) 311. The ID 311 is an identifier for identifying a combination of the work type 312 and the process 313. The work type 312 related to the deterioration type indicates the name of the repair work. The process 313 indicates the specific work content included in the work type 312. The repair work management device 100 then generates the process using the process table 301.

The hardware configuration of the repair work management device 100 will be described with reference to FIG. 4. The CPU (Central Processing Unit) 410 is a processor for arithmetic control, and realizes each functional configuration of the repair work management device 100 in FIG. 2 by executing a program. The CPU 410 has multiple processors and may execute different programs, modules, tasks, threads, etc. in parallel. The ROM (Read Only Memory) 420 stores fixed data such as initial data and programs, and other programs. The network interface 430 communicates with other devices, etc. via a network. The CPU 410 is not limited to one, and may be multiple CPUs, or may include a GPU (Graphics Processing Unit) for image processing. It is also preferable that the network interface 430 has a CPU independent of the CPU 410 and writes or reads transmitted or received data to or from an area of the RAM (Random Access Memory) 440. It is also preferable to provide a DMAC (Direct Memory Access Controller) (not shown) that transfers data between the RAM 440 and the storage 450. Furthermore, the CPU 410 recognizes that data has been received or transferred to the RAM 440 and processes the data. The CPU 410 also prepares the processing results in the RAM 440 and leaves subsequent transmission or transfer to the network interface 430 or the DMAC.

RAM 440 is a random access memory used by CPU 410 as a work area for temporary storage. RAM 440 has a storage area reserved for storing data necessary for implementing this embodiment. Design data 441 is data at the time of designing the building 110 that is the subject of repair inspection. Repair location data 442 is data indicating the location of the repair location on the design data. Work type data 443 related to the deterioration type is data indicating the name of the repair work at the repair location selected on the display screen by the inspector 120. Process data 444 is data about the process included in the work type related to the deterioration type selected on the display screen.

Transmitted and received data 445 is data transmitted and received via network interface 430. RAM 440 also has an application execution area 446 for executing various application modules.

Storage 450 stores a database, various parameters, or the following data or programs required to implement this embodiment. Storage 450 stores process table 301. Process table 301 is a table that manages the relationship between work type 312 and process 313, etc., as shown in FIG. 3.

The storage 450 further stores a design data acquisition module 451, an input reception module 452, and a process generation module 453. The design data acquisition module 451 is a module that acquires design data of a building that is the subject of repair inspection. The input reception module 452 is a module that receives repair location data and work type data related to the deterioration type that are input on a display screen that displays the design data. The process generation module 453 is a module that extracts process data related to a process linked to a work type related to the deterioration type based on the received input results, and generates a process. These modules 451 to 453 are read into the application execution area 446 of the RAM 440 by the CPU 410 and executed. The control program 454 is a program for controlling the entire repair work management device 100.

The input/output interface 460 interfaces with the input/output device for input/output data. A display unit 461 and an operation unit 462 are connected to the input/output interface 460. A storage medium 464 may also be connected to the input/output interface 460. A speaker 463 serving as an audio output unit, a microphone (not shown) serving as an audio input unit, or a GPS position determination unit may also be connected. Note that the RAM 440 and storage 450 shown in FIG. 4 do not show programs or data related to the general-purpose functions of the repair work management device 100 or other feasible functions.

Next, the processing procedure of the repair work management device 100 will be described with reference to the flowchart shown in FIG. 5. This flowchart is executed by the CPU 410 in FIG. 4 using the RAM 440, and realizes each functional configuration of the repair work management device 100 in FIG. 2.

In step S501, the design data acquisition unit 201 acquires design data for the building 110 that is the target of repair inspection. In step S503, the input reception unit 202 receives input of the location of the repair area. The location of the repair area is input, for example, by the inspector 120 using a specified marker. Once input of the location of the repair area is complete, proceed to step S507.

In step S505, the process generation unit 203 extracts the process data linked to the marker indicating the selected deterioration content. In step S507, the process generation unit 203 uses the extracted process data to generate a repair work process for the repair location. When the process generation is complete, in step S509, the repair work management device 100 determines whether input of all repair location positions has been completed. If it is determined that input of all repair location positions has not been completed (NO in step S509), the repair work management device 100 returns to step S503. If it is determined that input of all repair location positions has been completed (YES in step S509), the repair work management device 100 ends the processing.

According to this embodiment, simply by inputting the location of the area to be repaired on the design drawing and selecting the type of deterioration of the area to be inspected during the repair inspection, the process required for the repair work of the area to be repaired is generated, allowing for centralized management of everything from the inspection of the area to the repair work.

[Second embodiment]
Next, a repair work management device according to a second embodiment of the present invention will be described with reference to FIGS. 6 to 8. FIG. 6 is a block diagram for explaining the configuration of a repair work management device 600 according to this embodiment. The repair work management device 600 according to this embodiment is a device capable of managing the progress of a generated process, and is different from the first embodiment in that it has a process completion input reception unit, an update recording unit, a process completion recording unit, and a display control unit. Since the other configurations and operations are the same as those of the first embodiment, the same configurations and operations are assigned the same reference numerals and detailed descriptions thereof are omitted. The repair work management device 600 has a process completion input reception unit 601, a process completion recording unit 602, an update recording unit 603, and a display control unit 604.

The process completion input receiving unit 601 receives a process completion input for a completed process in which repair work is performed according to the process of the work type related to the deterioration content generated by the process generation unit 203. First, when performing repair work, for example, a worker can check the unstarted repair parts from the display color of the marker (repair marker) attached to each repair part displayed on the display screen. Then, the worker selects the process of the unstarted repair part on the display screen, checks the process and quantity, etc., and starts the work. When the worker completes each process, he performs an operation to indicate that the work of the process is completed and inputs the process completion. The process completion receiving unit 601 accepts the input of the process completion. The worker may input the process completion for each repair work or for several repair works together. Similarly, the worker may input the process completion for each process or for all processes together.

The process completion recording unit 602 records the completion of a process in the process data related to the received process completion input. As described above, the process completion recording unit 602 records the received process completion input, making it possible to manage the progress of each process.

When the process completion input receiving unit 601 receives a change input regarding the process content related to the repair work along with the process completion input, the update recording unit 603 updates and records the content of the process data with the change input content. For example, if the repair range entered at the time of repair inspection is found to be small when the repair work is actually carried out, in order to record that the repair range was small, the size of the repair range at the time of repair inspection is updated to the repair range at the time of repair work. In this way, when changes occur in the repair locations or repair range between the time of repair inspection and the time of repair work, or in the generated process, data and information are updated in a timely manner so that the latest information can be recorded.

The display control unit 604 displays the repair areas identifiable on the display screen according to the progress of the process. The display control unit 604 displays the repair areas identifiable on the display screen by reflecting the process completion input and change input. The display control unit 604 displays, for example, repair areas where repair work has been completed and repair areas where part of the remunerated work process has been completed in a manner that makes them distinguishable from other repair areas and areas that do not require repair.

The display control unit 604 also displays quantitative data on at least one of the repair location, the process, and the timeline on the display screen. For example, the display control unit 604 displays the size (area) of the repair location, the number of days for the process, or the schedule of the work, as well as the status (quantity data) of the repair location at a certain point in the past or the status (quantity data) of the repair location at a certain point in the future. In this way, by displaying the past and future status, it becomes possible to compare the planned and actual quantities. Furthermore, the display control unit 604 may also display quantities such as the above-mentioned quantities input by automatic input (e.g., the number of damaged tiles) and manually input quantities (e.g., the number of tiles that have completely peeled off), making it easier to grasp the progress of the work.

The hardware configuration of the repair work management device 600 will be described with reference to FIG. 7. The RAM 740 is a random access memory used by the CPU 410 as a work area for temporary storage. A memory area is reserved in the RAM 740 for storing data necessary for implementing this embodiment. The process completion data 741 is data related to a completed process, and is data entered by a repair worker using a mobile terminal 140 or the like. The update data 742 is data for correcting and updating the data entered at the time of the repair inspection when a situation occurs during the repair work that differs from that at the time of the repair inspection.

The storage 750 stores a database, various parameters, or the following data or programs necessary for realizing this embodiment. The storage 750 stores a process completion input reception module 751, a process completion record module 752, an update record module 753, and a display control module 754. The process completion input reception module 751 is a module that receives a process completion input for a process in which repair work has been carried out and completed. The process completion record module 752 is a module that records the completion of a process in the process data related to the received process completion input. The update record module 753 is a module that updates and records the contents of the process data with the contents of the change input when a change input regarding the contents of the type of work related to the deterioration content is received. The display control module 754 is a module that displays the repair points in an identifiable manner on the display screen according to the progress of the process. In addition, the display control module 754 is a module that reflects the process completion input and the change input on the display screen to display the repair points in an identifiable manner. These modules 751 to 754 are loaded into the application execution area 446 of the RAM 740 by the CPU 410 and executed.

Next, the processing procedure of the repair work management device 600 will be described with reference to the flowchart shown in FIG. 8. This flowchart is executed by the CPU 410 in FIG. 7 using the RAM 740, and realizes each functional configuration of the repair work management device 600 in FIG. 6.

In step S801, the process completion input receiving unit 601 receives a process completion input for a completed process in which repair work has been carried out according to the generated repair work process. In step S803, the process completion recording unit 602 records the completion of the process in the process data related to the received process completion input. In step S805, when the update recording unit 603 receives a change input related to the content of the process together with the completion of the process, it updates and records the content of the process data with the content of the change input. In step S807, the display control unit 604 displays the repair locations in an identifiable manner according to the progress of the process. Furthermore, the display control unit 604 reflects the process completion input and the change input to display the repair locations in an identifiable manner. Furthermore, the display control unit 604 displays quantitative data related to the repair locations, processes, time series, etc.

According to this embodiment, progress management and process management of repair work can be reliably performed. Furthermore, even during repair work, information that could not be found during repair inspection can be linked to the repair inspection information, and the information can be managed as a whole. Furthermore, even during repair work, the repair location and repair range can be changed, and the results of the changes can be displayed on the display screen.

The present invention has been described above with reference to the embodiments, but the present invention is not limited to the above-described embodiments and can be modified as appropriate. Various modifications that can be understood by those skilled in the art can be made to the configuration and details of the present invention within the scope of the present invention. In addition, systems or devices that combine the separate features included in each embodiment in any way are also included in the scope of the present invention.

The present invention may also be applied to a system consisting of multiple devices, or to a single device. Furthermore, the present invention may also be applied to a case where an information processing program that realizes the functions of the embodiments is supplied to a system or device and executed by a built-in processor. Therefore, the technical scope of the present invention includes a program that is installed on a computer to realize the functions of the present invention on a computer, or a medium storing the program, a WWW (World Wide Web) server that downloads the program, and a processor that executes the program. In particular, at least a non-transitory computer readable medium that stores a program that causes a computer to execute the processing steps included in the above-mentioned embodiments is included in the technical scope of the present invention.

Also, for example, the repair work management device 100 may determine whether or not the input of all repair location positions has been completed at the time when the input of repair location positions for a specified position has been completed, and if it determines that the input of all repair location positions has not been completed, it may return to the input of repair location positions, and only after determining that the input of all repair location positions has been completed, may it proceed to extracting process data and creating a process.

Claims (5)

A design data acquisition unit that acquires design data of a building that is a target for repair and inspection;
an input receiving unit that receives, as a result of the repair and inspection of the building, a type of deterioration and repair location data indicating the location of the repair location, which are input on a display screen that displays the acquired design data;
a process generation unit that extracts process data related to the process of the repair work associated with the type of deterioration based on the received input result and generates a process of the repair work;
A repair work management device equipped with the above. a process completion input receiving unit that receives a process completion input for a completed process in which repair work is carried out according to the process of the repair work generated by the process generation unit;
a process completion recording unit that records the completion of the process in the process data related to the received process completion input;
an update record unit that updates and records the content of the process data with the content of the change input when the process completion input receiving unit receives a change input regarding the content of the repair work together with the process completion input;
A display control unit that displays the repair location in an identifiable manner according to the progress of the repair work on the display screen;
Further equipped with
2. The repair work management device according to claim 1, wherein the display control unit displays the repair location on the display screen in an identifiable manner, reflecting the process completion input and the change input. The repair work management device according to claim 2, wherein the display control unit displays quantity data relating to at least one of the repair location, the process, and the time series on the display screen. A design data acquisition step of acquiring design data of a building to be inspected for repair;
an input receiving step of receiving, on a display screen that displays the acquired design data, an input of a type of deterioration and repair location data indicating the location of the repair location as a result of the repair inspection of the building;
A process generation step of extracting process data related to the process of the repair work associated with the type of deterioration based on the received input result and generating the process of the repair work;
A method for managing repair work, including: A design data acquisition step of acquiring design data of a building to be inspected for repair;
an input receiving step of receiving, on a display screen that displays the acquired design data, an input of a type of deterioration and repair location data indicating the location of the repair location as a result of the repair inspection of the building;
A process generation step of extracting process data related to the process of the repair work associated with the type of deterioration based on the received input result and generating the process of the repair work;
A repair work management program that causes a computer to execute the above.