JP7320693B1 - ELECTRONIC SMALL BOARD OUTPUT SYSTEM, JUDGMENT RESULT OUTPUT METHOD AND PROGRAM - Google Patents

Abstract

An object of the present invention is to improve work efficiency. SOLUTION: An electronic small blackboard output system for outputting an electronic small blackboard creates construction control items for each member necessary for a work type corresponding to each area of a construction site, and for each item of the created construction control items. to set the construction control standards and construction plan values, acquire the measured values of each item of the construction control items, and determine whether the acquired measured values satisfy the set construction control standards, A first electronic small blackboard reflecting the construction plan values and actual measured values of the construction management item determined to satisfy the construction management standard is generated, and the generated first electronic small blackboard is output. [Selection drawing] Fig. 1

Description

TECHNICAL FIELD The present invention relates to a technique effective for the output of an electronic small board.

In recent years, attention has been focused on techniques related to construction management standards for construction sites.
For example, Japanese Patent Laid-Open No. 2002-200001 proposes a technique for preventing duplication and omission of checks and inspections of inspection items performed in accordance with construction management standards for each individual construction work.
In addition, in Patent Document 2, in order to formulate a facility maintenance plan efficiently, past construction records and construction management reference values of maintenance target equipment are stored in association with data items, A technique has been proposed in which regression analysis is performed for each maintenance target device based on accumulated data, and the next inspection cycle is changed according to the results of the regression analysis.

JP-A-11-007473 Japanese Patent Application Laid-Open No. 2002-297810

At a construction site, a manager or a worker had to visually check the construction management items of each member required for the type of work corresponding to each area, and manually reflect the check results on the electronic small blackboard. There was a problem that the confirmation results of the construction management items could not be automatically reflected on the electronic small board, and the work efficiency was poor.
Therefore, there is a demand for a technique for automatically reflecting the results of confirmation of construction management items on an electronic small blackboard.
However, with the techniques described in Patent Literatures 1 and 2, it was not possible to automatically reflect the confirmation results of the construction management items on the electronic small blackboard.
Therefore, the inventor of the present invention focused on a mechanism for automatically reflecting the confirmation results of the construction management items on the electronic small blackboard.

The present invention provides an electronic small blackboard output system, an electronic small blackboard output method, and a program capable of improving work efficiency by automatically reflecting the confirmation results of construction management items on the electronic small blackboard. The purpose is to

The present invention is an electronic small blackboard output system that outputs an electronic small blackboard,
a creation unit that creates construction management items for each member required for the type of construction corresponding to each area of the construction site;
a setting unit that sets construction management standards and construction planning values for each item of the created construction management items;
a measured value acquisition unit that acquires measured values for each item of the construction management items;
a determination unit that determines whether the obtained actual measurement value satisfies the set construction management standard;
an electronic small blackboard generation unit that generates a first electronic small blackboard reflecting the construction plan values and actual measured values of the construction control items determined to satisfy the construction control criteria;
an electronic small blackboard output unit that outputs the generated first electronic small blackboard;
To provide an electronic small board output system comprising:

According to the present invention, the electronic small blackboard output system determines whether or not the actual measurement value of each item of the construction control item satisfies the construction control standard set for the construction control item of each member required for the type of work. Then, the first electronic small blackboard reflecting the construction plan values and actual measurement values of the construction management items determined to satisfy the construction management standards is output.
As a result, the work efficiency can be improved by automatically reflecting the confirmation result of the construction management items on the electronic small blackboard.

Although the present invention is in the category of systems, the same actions and effects can be achieved with methods and programs.

ADVANTAGE OF THE INVENTION According to this invention, it becomes possible to improve working efficiency.

1 is a diagram illustrating an outline of an electronic small blackboard output system 1; FIG. 1 is a diagram showing a functional configuration of an electronic small blackboard output system 1; FIG. 4 is a diagram showing a flowchart of construction management item creation processing executed by the computer 10. FIG. FIG. 4 is a diagram schematically showing an example of a template; 4 is a diagram showing a flowchart of setting processing executed by the computer 10. FIG. 4 is a diagram schematically showing an example of setting construction management standards and construction planning values for each item in a template 20. FIG. 4 is a diagram showing a flowchart of actual measurement value acquisition processing executed by the computer 10. FIG. FIG. 10 is a diagram schematically showing an example when actually measured values are reflected in each item in the template 20; 4 is a diagram showing a flowchart of first determination processing executed by the computer 10; FIG. FIG. 10 is a diagram schematically showing an example of reflecting a pass/fail judgment result and indication content for each item in the template 20; FIG. 10 is a diagram showing a flowchart of a second determination process executed by the computer 10; FIG. FIG. 4 is a diagram schematically showing an example of a list of types of work; FIG. 4 is a diagram showing a flowchart of a first electronic small blackboard output process executed by the computer 10; FIG. 4 is a diagram schematically showing an example of a first electronic small blackboard; FIG. 10 is a diagram showing a flowchart of a second electronic small blackboard output process executed by the computer 10; FIG. 10 is a diagram schematically showing an example of a second electronic small blackboard; FIG. 10 is a diagram showing a flowchart of judgment result list output executed by the computer 10; FIG. 11 is a diagram schematically showing an example of a determination result list; FIG. 10 is a diagram schematically showing an example of a determination result list with changed attention levels; 4 is a diagram showing a flowchart of item list output processing executed by the computer 10. FIG. FIG. 4 is a diagram schematically showing an example of an item list; 4 is a diagram showing a flowchart of drawing data acquisition processing executed by the computer 10. FIG. FIG. 10 is a diagram showing a flowchart of icon figure placement processing executed by the computer 10; FIG. 4 is a diagram schematically showing an example of a state in which icons are arranged in drawing data;

EMBODIMENT OF THE INVENTION Hereinafter, with reference to an accompanying drawing, the form (henceforth, embodiment) for implementing this invention is demonstrated in detail. In subsequent figures, the same numbers or symbols are attached to the same elements throughout the description of the embodiments.

[Overview of Electronic Small Blackboard Output System 1]
FIG. 1 is a schematic diagram for explaining an outline of an electronic small blackboard output system 1. As shown in FIG. Based on FIG. 1, the components of the electronic small blackboard output system 1 will be described.
The electronic small blackboard output system 1 is a system for outputting an electronic small blackboard which is composed of a computer 10 having at least a server function.
The computer 10 has a server function, and may be realized by, for example, one computer, or may be realized by a plurality of computers like a cloud computer.
A cloud computer in this specification is a computer that uses any computer in a scalable manner to perform a specific function, or includes multiple functional modules to realize a certain system, and uses the functions in a free combination. It can be anything.
In addition to the computer 10 described above, the electronic small blackboard output system 1 includes on-site terminals (information terminals such as mobile phones, smartphones, tablet terminals, personal computers, laptop computers, etc.) possessed by managers and workers at construction sites. , smart glasses, wearable terminals such as HMD (Head Mounted Display), etc.), measuring devices that measure the actual values of each member used at construction sites, and other terminals and devices such as external databases. The number, types and functions of these can be designed as appropriate.

An outline of processing steps when the electronic small blackboard output system 1 outputs an electronic small blackboard will be described.

The computer 10 prepares construction management items for each member necessary for the type of work corresponding to each area of the construction site (step S1).
The computer 10 acquires from an external database, a site terminal, or the like, the construction management items of each member necessary for the type of work corresponding to each area of the construction site.
Based on the acquired construction management items, the computer 10 creates a template that summarizes the construction management items for each member. This template reflects at least construction management items, construction management standards, construction plan values, actual measurement values, and judgment results as to whether or not a product is acceptable for each member.

The computer 10 sets construction management standards and construction planning values for each of the created construction management items (step S2).
The computer 10 stores construction management standards and construction plan values for each item of the created construction management items in an external database, a site terminal, and so on.

etc.
The computer 10 inputs the construction control standards and construction plan values for each item into the created template based on the acquired construction control standards and construction plan values for each item, and for each item of the created construction control items , construction management standards and construction plan values are set.

The computer 10 acquires the measured value of each item of the construction management items (step S3).
The computer 10 acquires the measured value of each item of the construction management items from a site terminal, a measuring device, or the like.
The computer 10 reflects the actual measurement value for each item in the created template based on the acquired actual measurement value for each item.

The computer 10 determines whether or not the obtained measured values satisfy the set construction management criteria (step S4).
When the computer 10 determines that the acquired actual measurement value satisfies the set construction management standard, the computer 10 determines that the item corresponding to the acquired actual measurement value has passed the set construction management standard. On the other hand, when the computer 10 determines that the acquired actual measurement value does not satisfy the set construction control standard, it determines that the item corresponding to the acquired actual measurement value does not pass the set construction control standard.
Based on this determination result, the computer 10 reflects the pass/fail determination result for each item in the created template.

The computer 10 generates a first electronic small blackboard reflecting the construction plan values and actual measurement values of the construction management items determined to satisfy the construction management criteria (step S5).
The computer 10 displays on an electronic small blackboard in a predetermined format the construction details (type of work, area, acceptance/rejection judgment result, construction plan value, actual measurement value, remarks, etc.) corresponding to the construction control item determined to satisfy the construction control standard. ) to generate a first electronic small board reflecting

The computer 10 outputs the generated first electronic small board (step S6).
The computer 10 transmits the generated first electronic small board to the field terminal. The field terminal receives this first electronic small board and displays it on its own display unit.
The computer 10 outputs the generated first electronic small blackboard by displaying the first electronic small blackboard on the field terminal.

The outline of the electronic small blackboard output system 1 has been described above.
According to the electronic small blackboard output system 1, it is possible to improve work efficiency.

[Device configuration]
FIG. 2 is a block diagram showing the configuration of the electronic small blackboard output system 1. As shown in FIG. Based on FIG. 2, the device configuration of the electronic small blackboard output system 1 will be described.
The electronic small blackboard output system 1 is a system for outputting an electronic small blackboard, and is composed of at least a computer 10 .
In the electronic small blackboard output system 1, a computer 10 is connected to other terminals and devices such as the on-site terminal, the measuring device, the external database, etc. via a network 7 such as a public network so as to be capable of data communication. system.
In addition, the components of the electronic small blackboard output system 1 are only an example, and may include other terminals and devices such as the above-described on-site terminal, measuring device, external database, etc., which are not shown. The numbers, types and functions of these can be appropriately designed.

The computer 10 has a server function, and may be realized by, for example, one computer, or may be realized by a plurality of computers like a cloud computer.
The computer 10 includes a CPU (Central Processing Unit), a GPU (Graphics Processing Unit), a RAM (Random Access Memory), a ROM (Read Only Memory), etc. as a control unit, and a communication unit to communicate with other terminals, devices, etc. It includes a device for enabling communication, a measured value acquisition unit 11 for acquiring measured values of each construction management item, an electronic small board output unit 12 for outputting the generated first electronic small board, and the like.
The computer 10 includes a data storage unit such as a hard disk, a semiconductor memory, a recording medium, a memory card, etc., as a storage unit.
The computer 10 includes, as a processing unit, various devices for executing various processes, a creation unit 13 for creating construction control items for each member required for each construction type corresponding to each area of the construction site, and each item of the created construction control items. On the other hand, a setting unit 14 for setting construction management standards and construction plan values, a determination unit 15 for determining whether or not the acquired actual measurement values satisfy the set construction management standards, and determining that the construction management standards are satisfied. An electronic small blackboard generator 16 or the like is provided for generating a first electronic small blackboard reflecting the construction plan values and actual measured values of the construction management items.

In the computer 10, by reading a predetermined program by the control unit, in cooperation with the communication unit, a construction management item acquisition module, a construction management standard acquisition module, a construction plan value acquisition module, an actual measurement value acquisition module, and an electronic small blackboard output A module, a determination result list output module, an item list output module, a drawing data acquisition module, and an icon figure output module are implemented.
Further, in the computer 10, the control unit reads a predetermined program to cooperate with the storage unit to create a construction management item storage module, a setting storage module, an actual measurement value storage module, a pass/fail result storage module, a judgment result storage module, A drawing data storage module is realized.
Further, in the computer 10, the control unit reads a predetermined program, and cooperates with the processing unit to create a construction management item creation module, a setting module, an actual measurement value reflection module, a first judgment module, a pass/fail reflection module, and indication contents. Creation module, indication content reflection module, second judgment module, work type judgment result creation module, electronic small blackboard creation module, judgment result list creation module, construction management item attention level change module, item list creation module, layer creation module, icon figure A creation module, an icon figure attention level change module, and an icon figure arrangement module are realized.

Each process executed by the electronic small blackboard output system 1 will be described below together with the process executed by each module described above.
In this specification, each module may execute its processing content as its own function or through a predetermined application.

[Construction management item creation processing executed by computer 10]
The construction management item creating process executed by the computer 10 will be described with reference to FIG.
This figure is a diagram showing a flowchart of construction management item creation processing executed by the computer 10 . This construction control item creation process is the details of the creation process (step S1) for creating construction control items for each member necessary for the type of work corresponding to each area of the construction site described above.

The construction management item acquisition module acquires the construction management items of each member necessary for the type of work corresponding to each area of the construction site (step S10).
An area represents a hierarchy or location on a construction site. The type of work represents the type of construction work, for example, electrical installation work, plumbing and sanitary equipment work, elevator work, and toilet work. The members represent the names and types of items used in construction, such as switchboards, electrical conduits, water supply pipes, drainage pipes, door hanger rails, and door locks. The construction management items are, for example, the dimensions and the number of parts for each member used in the construction.
The construction management item acquisition module acquires this construction management item from an external database. The construction management item acquisition module requests the external database to transmit the construction management items of each member, and acquires necessary data. Alternatively, the construction management item acquisition module acquires this construction management item from the field terminal. The site terminal receives input of the construction management items from the manager, worker, or the like, and transmits the received data to the computer 10 . The construction management item acquisition module receives this data and acquires this construction management item.
It should be noted that the method by which the construction management item acquisition module acquires this construction management item is not limited to the example described above, and can be designed as appropriate.

The construction management item creation module creates construction management items for each member necessary for the type of work corresponding to each area of the construction site (step S11).
The construction control item creation module creates a template that summarizes the construction control items for each member based on the obtained construction control items for each member required for the work type corresponding to each area of the construction site (see Fig. 4). . This template reflects, for each member, construction management items, construction management standards, construction plan values, actual measurement values, judgment results as to whether it is acceptable or not, and what is pointed out if it is not acceptable. It is. The details of the construction management standards, construction plan values, actual measurements, judgment results, and indications will be described later.
By creating this template for each member, the construction management item creation module creates construction management items for each member necessary for the type of work corresponding to each area of the construction site.

A template created by the construction management item creating module will be described with reference to FIG. The figure schematically shows an example of a template created by the construction management item creation module. In the figure, a template 20 is shown. This template 20 is one of the members necessary for construction of plumbing and sanitary facilities.
In the template 20, a member column 21, a construction management item column 22, a construction management standard column 23, a construction plan value column 24, an actual measurement value column 25, a pass/fail column 26, and an indication content column 27 are shown.
The member column 21 is a column in which the name of the member is entered. The construction management item column 22 is a column in which construction management items of this member are entered. The construction management standard column 23 is a column in which the construction management standard of this member is entered. The construction plan value column 24 is a column in which the construction plan value of this member is entered. The measured value column 25 is a column in which the measured value of this member is entered. The pass/fail column 26 is a column for inputting whether or not the actual measurement value of this member passes the construction management standard. The indication content column 27 is a column for inputting indication content when this member is not accepted.
The construction management item creation module inputs the name of the member (member A) in the member column 21, and inputs the construction management items (length, number of parts) of this member in the construction management item column 22. Create construction management items for each member required for the type of construction corresponding to each area of the site. Details of each column other than these columns will be explained in the process described later.
The construction control item creation module may input the name of the member and the construction control item based on the construction control item for each member acquired this time to the template 20 created in advance. The template 20 itself may be created based on the acquired construction management items for each member.
Further, the member column 21 may be a column in which only the name of the member is entered, or a column in which the work type and area requiring the member are also entered.
Also, the content and layout of each column are not limited to the above examples, and can be designed as appropriate.

Returning to FIG. 3, the continuation of the construction management item creating process will be described.
The construction management item storage module stores the created construction management item (step S12).
The construction management item storage module stores the created construction management items by storing the created template for each member.

The above is the construction management item creation processing.
The electronic small blackboard output system 1 uses the construction management item (template) created by the construction management item creating process described above to execute the processing described later.

[Setting process executed by computer 10]
Setting processing executed by the computer 10 will be described with reference to FIG. This figure is a diagram showing a flowchart of the setting process executed by the computer 10 . This setting process is the details of the setting process (step S2) for setting the construction management criteria and construction plan values for each item of the construction management items created above.

The construction management standard acquisition module acquires construction management standards for each of the created construction management items (step S20).
The construction management standard is a reference value for each item of the construction management items. For example, the construction control standard for the item "length" of "member A" is "9 to 11 cm", and the construction control standard for the item "number of parts" of "member A" is "24". .
The construction management standard acquisition module acquires this construction management standard from an external database. The construction management standard acquisition module requests the external database to transmit construction management standards for each construction management item, and acquires necessary data. Alternatively, the construction management standard acquisition module acquires this construction management standard from the site terminal. The site terminal accepts the input of the construction management criteria from the manager, worker, or the like, and transmits the accepted data to the computer 10 . The construction management standard acquisition module receives this data and acquires this construction management standard.
The method by which the construction management standard acquisition module acquires this construction management standard is not limited to the above example, and can be designed as appropriate.

The construction plan value subacquisition module acquires the construction plan value for each item of the created construction management items (step S21).
The construction plan value is a target value for each item of the construction management items, and is a value that satisfies the construction management standard. For example, the construction plan value for the item "length" of "member A" is "10 cm", and the construction plan value for the item "number of parts" for "member A" is "24".
The construction plan value acquisition module acquires this construction plan value from an external database. The construction plan value acquisition module requests the external database to transmit construction plan values for each item of the construction management items, and acquires necessary data. Alternatively, the construction plan value acquisition module acquires this construction plan value from the site terminal. The site terminal accepts the input of this construction plan value from the manager, worker, or the like, and transmits the accepted data to the computer 10 . The construction plan value acquisition module receives this data and acquires this construction plan value.
The method by which the construction plan value acquisition module acquires this construction plan value is not limited to the example described above, and can be designed as appropriate.

The setting module sets construction management standards and construction planning values for each item of the created construction management items (step S22).
The setting module sets construction management standards and construction plan values for each item of the created construction management items (template).
The setting module inputs the construction management standard for each item in the construction management standard column 23 described above, inputs the construction plan value for each item in the construction plan value column 24, and sets the created construction management item for each item. to set the construction management criteria and construction plan values (see FIG. 6).

Based on FIG. 6, the construction management criteria and construction plan values set by the setting module will be described. This figure is a diagram schematically showing an example when construction management standards and construction plan values are set for each item in the template 20 described above with reference to FIG. In addition, the same code|symbol is attached|subjected about the same content as FIG. 4 mentioned above.
The setting module stores the acquired construction management standards (9 to 11 cm for the “length” of “member A”, 24) to set the construction management criteria for each of the created construction management items.
The setting module stores the acquired construction plan values (10 cm for the "length" of "member A" and 24 for the "number of parts" of "member A" in the construction plan value column 24 corresponding to each item. ) to set construction planning values for each item of the created construction management items.

Returning to FIG. 5, the continuation of the setting process will be described.
The setting storage module stores the set construction management criteria and construction plan values (step S23).
The setting storage module stores the set construction management criteria and construction plan values by storing the template into which the construction management criteria and construction plan values are input.

The above is the setting process.
The electronic small blackboard output system 1 uses the construction management criteria and construction plan values set by the setting process described above to execute the processes described later.

[Measured Value Acquisition Processing Executed by Computer 10]
Measured value acquisition processing executed by the computer 10 will be described with reference to FIG. This figure is a diagram showing a flow chart of the actual measurement value acquisition process executed by the computer 10 . This actual value acquisition process is the details of the actual value acquisition process (step S3) for acquiring the actual value of each item of the construction management items described above.

The measured value acquisition module acquires the measured value of each item of the construction management items (step S30).
The measured value is the result of actually measuring the members used. For example, the measured value of the item "length" of "member A" is "10 cm", and the measured value of the item "number of parts" of "member A" is "23".
The measured value acquisition module acquires the measured value of each item of the construction management items from the field terminal or the measuring device. The field terminal accepts input of actual measurement values corresponding to each item of the construction management items from the manager or worker, and transmits the accepted data to the computer 10 . The actual value acquisition module receives this data and acquires the actual value of each item of the construction management items. Alternatively, the measuring device transmits the measurement result of the member to the computer 10 . The measured value acquisition module receives this measurement result and acquires the measured value of each item of the construction management items.
It should be noted that the method by which the measured value acquisition module acquires this measured value is not limited to the example described above, and can be designed as appropriate.

The measured value reflection module reflects the measured value to each item of the created construction management items (step S31).
The measured value reflection module reflects the acquired measured values for each item of the created construction management items (template).
The measured value reflecting module inputs the measured value for each item in the measured value column 25 described above, and reflects the measured value for each item of the created construction management items (see FIG. 8).

Based on FIG. 8, the measured values reflected by the measured value reflecting module will be described. This figure is a diagram schematically showing an example when actual measurement values are reflected for each item in the template 20 described with reference to FIG. 6 described above. In addition, the same code|symbol is attached|subjected about the content similar to FIG.4 and FIG.6 mentioned above.
The measured value reflection module displays the acquired measured values (10 cm for the “length” of “member A” and 23 for the “number of parts” of “member A” in the measured value column 25 corresponding to each item. ) to reflect the measured values in the created construction management items.

Returning to FIG. 7, the continuation of the measured value acquisition process will be described.
The measured value storage module stores the reflected measured value (step S32).
The measured value storage module stores the reflected measured values by storing the template into which the measured values are input.

The above is the actual measurement value acquisition processing.
The electronic small blackboard output system 1 uses the measured values obtained by the above-described measured value obtaining process to execute the processing described later.

[First Determination Process Executed by Computer 10]
The first determination process executed by the computer 10 will be described with reference to FIG. This figure is a diagram showing a flowchart of the first determination process executed by the computer 10 . This first determination process is the details of the determination process (step S4) for determining whether or not the obtained actual measurement values described above satisfy the set construction management criteria.

The first determination module determines whether or not the obtained measured values satisfy the set construction management criteria (step S40).
The first determination module determines whether or not the acquired measured value satisfies the construction management criteria set for the item corresponding to this measured value. The fact that the measured value satisfies the construction management standard means that the measured value is within the scope of the construction management standard, matches the construction management standard, or the like. For example, in the construction control item “length” of member A, if the construction control standard is “9 to 11 cm” and the measured value is “10 cm”, the measured value is within the range of the construction control standard. 1 determination module determines that the obtained actual measurement value satisfies the set construction management criteria. On the other hand, in the construction control item "number of parts" of member A, if the construction control standard is "24" and the measured value is "23", the measured value does not match the construction control standard, so the first judgment The module determines that the obtained measured value does not meet the set construction management criteria.

When the first determination module determines that the acquired actual measurement value satisfies the set construction management standard (step S40 YES), the item corresponding to the acquired actual measurement value does not pass the set construction management standard. It is determined that there is (step S41).

The pass/fail reflection module reflects the pass in the created construction management item (step S42).
The pass/fail reflection module reflects that the item judged to pass this time among the created construction management items (template) has passed.
The pass/fail reflection module inputs that it has passed in the above-mentioned pass/fail column 26, and reflects that it has passed for the item judged to have passed this time among the created construction management items. (See FIG. 10).
After executing the process of step S42, the computer 10 executes the process of step S47, which will be described later.

Returning to the process of step S40, the case where the first determination module determines that the acquired actual measurement value does not satisfy the set construction management standard will be described.
When the first determination module determines that the acquired actual measurement value does not satisfy the set construction management standard (step S40 NO), the item corresponding to the acquired actual measurement value does not pass the set construction management standard. It is determined that there is no (step S43).

The pass/fail reflection module reflects that the construction management item has not passed (step S44).
The pass/fail reflection module reflects the fact that the item, among the created construction management items (template), has not passed this time and has not passed.
The pass/fail reflection module inputs that it has not passed in the above-mentioned pass/fail column 26, and reflects that it has not passed for the item determined as not passed this time among the created construction management items. (See FIG. 10).

The indication content creation module creates indication content for the construction management item (step S45).
The pointed out content is the difference between the construction management standard and the measured value, and the reason why it was judged that it did not pass.
The content of indication creation module creates content of indication based on the construction management criteria and the actual measurement values in the item determined to be unsatisfactory. The indication content creating module creates, as indication content, the difference between this construction management standard and the actual measurement value, the reason why it was determined that the work was not passed, and the like. For example, in the construction management item "number of parts" of member A that has been determined not to pass, the construction management standard is "24 pieces" and the measured value is "23 pieces", so the indicated content is "insufficient number". to create
Note that the indication content created by the indication content creating module is not limited to the example described above, and can be designed as appropriate. For example, in the above example, the indication content creation module may create the missing number itself such as "-1" as the indication content, or may create other content as the indication content. good.
In addition, the content of indication created by the content creation module of indication may be made by a manager or an operator. In this case, the on-site terminal accepts an input of indication content from a manager, worker, or the like, and transmits the accepted data to the computer 10 . The indication content creation module may receive this data and create indication content based on this data.

The indication content reflection module reflects the indication content in the created construction management item (step S46).
The indication content reflection module reflects the created indication content to the items determined not to pass this time among the created construction management items (template).
The indication content reflection module inputs the created indication content in the indication content column 27 described above, and reflects the indication content for the items determined not to have passed this time among the created construction management items (Fig. 10).

Based on FIG. 10, the pass/fail determination result and indication contents reflected by the computer 10 will be described. This figure is a diagram schematically showing an example of reflecting the pass/fail determination result and indication content for each item in the template 20 described with reference to FIG. 8 described above. In addition, the same code|symbol is attached|subjected about the content similar to FIG.4 and FIG.8 mentioned above.
In the process of step S42, the pass/fail reflection module enters the fact that it has passed (o) in the pass/fail column 26 corresponding to the construction management item "length" determined to pass, thereby Reflect that it has passed the management item.
In the process of step S44, the pass/fail reflection module enters the fact that it has not passed (x) in the pass/fail column 26 corresponding to the construction management item "number of parts" determined as not passed. Reflect that it has not passed the management item.
In the process of step S46, the indication content reflection module enters the created indication content (insufficient number) into the indication content column 27 corresponding to the construction management item "number of parts" determined to be unacceptable. Reflect the points pointed out in the construction management items.
Note that nothing is entered in the instruction content column 27 corresponding to the construction management item "length" determined to be acceptable.

Returning to FIG. 9, the continuation of the first determination process will be described.
The pass/fail result storage module stores the reflected pass/fail and the indicated content (step S47).
The pass/fail result storage module stores the reflected pass/fail and indicated content by storing the template into which the pass/fail and indicated content is input.

The above is the first determination processing.
The electronic small blackboard output system 1 executes the process described later using the pass/fail of each item determined by the first determination process described above and the content of indication created.

[Second Determination Process Executed by Computer 10]
The second determination process executed by the computer 10 will be described with reference to FIG. 11 . This figure is a diagram showing a flowchart of the second determination process executed by the computer 10 . This second determination process is the details of the determination process (step S4) for determining whether or not the above-mentioned obtained actual measurement value satisfies the set construction management standard.

The second determination module determines whether or not the measured values of all construction management items satisfy the construction management criteria (step S50).
The second determination module determines that, as a result of the first determination process described above, the measured values of all items of the construction control items satisfy the construction control criteria, that is, the measured values of all the items of the construction control items satisfy the set construction It is determined whether or not it has been determined that the management standard has been passed.
In the example of the first determination process described above, the second determination module determines whether or not the measured values of both the construction control items "length" and "number of parts" of member A pass the set construction control criteria. judge. In this case, although the second determination module determines that the item "length" is acceptable, it determines that the item "number of parts" is not acceptable. judge.
On the other hand, if the second determination module determines that the items "length" and "number of parts" are acceptable, it determines that the requirements are satisfied.

When the second determination module determines that the measured values of all items of the construction management items satisfy the construction management criteria (step S50 YES), the second determination module determines that the construction type is accepted (step S51).
The second determination module determines that the type of work determined to satisfy the construction management criteria for all items is acceptable. That is, if the second determination module determines that all construction management items of this type of work satisfy the set construction management criteria, the second determination module determines that this type of work is acceptable.
After executing the process of step S51, the computer 10 executes the process of step S53, which will be described later.

On the other hand, when the second determination module determines that the measured values of all construction management items do not satisfy the construction management criteria (step S50 NO), the second determination module determines that the construction type is not acceptable (step S52).
The second determination module determines that the type of work is not acceptable when it is determined that at least one of the measured values of all the items does not meet the construction management criteria. That is, if the second determination module determines that at least one actual measurement value does not satisfy the set construction management criteria among all the construction management items of this type of construction, it determines that this type of construction is not acceptable. .
In the example of FIG. 10 described above, it is determined that the "plumbing and sanitary installation work" is not acceptable.

The work type determination result creation module creates a determination result for each work type (step S53).
The work type determination result creation module creates a determination result based on the work type determined to be acceptable and the work type determined to be unacceptable. For example, the construction type determination result creation module creates a construction type list that summarizes the determined construction types (see FIG. 12). The work type determination result creation module inputs the pass/fail determination result of each work type to the created work type list, and creates the determination result for each work type.

Based on FIG. 12, the determination result for each type of work created by the module for creating determination result of type of work will be described. This figure is a diagram schematically showing an example of a construction type list created by the construction type determination result creation module. In the figure, a list of types of work 30 is shown.
A construction type column 31 and a pass/fail column 32 are shown in the construction type list 30 .
The work type column 31 is a column showing the name of the work type. The pass/fail column 32 is a column for indicating the pass/fail determination result of the type of work.
The work type determination result creation module creates this work type list 30 based on the name of the work type. The work type determination result creation module enters a pass (o) in the pass/fail column 32 corresponding to the work type determined to be acceptable in the process of step S51 for this work type list 30 . On the other hand, the construction type determination result creation module enters "not acceptable" (x) in the pass/fail column 32 corresponding to the construction type determined as not acceptable in the processing of step S52 in the construction type list 30.
As a result of the above, the construction type determination result creation module creates the construction type list 30 .
Note that the work type column 31 may be created not only with the name of each work type, but also with an area or the like corresponding to each work type.
Also, the content and layout of each column are not limited to the above examples, and can be designed as appropriate.

Returning to FIG. 11, the continuation of the second determination process will be described.
The determination result storage module stores the created determination result (step S54).
The determination result storage module stores the created determination result by storing the created work type list 30 .

The above is the second determination processing.
The computer 10 can also be configured to output the determination result (work type list 30) created by the second determination process described above to a field terminal or the like. In this case, the computer 10 transmits this work type list 30 to the field terminal, and the field terminal receives this work type list 30 and displays it on its own display unit.
In addition, the computer 10 changes the level of attention (background color, character color, character size, etc.) between the type of construction determined to be acceptable and the type of construction determined to be unacceptable in the created determination results, and outputs the result to a field terminal or the like. A configuration is also possible. In this case, the computer 10 transmits, to the field terminal, a list of types of work in which the degree of attention is changed between the types of work determined to be acceptable and the types of work determined to be unacceptable. should be displayed on the display part of .
The electronic small blackboard output system 1 executes the process described later using the pass/fail of each type of construction determined by the second determination process described above.

[First Electronic Small Blackboard Output Processing Executed by Computer 10]
The first electronic small blackboard output process executed by the computer 10 will be described with reference to FIG. This figure is a diagram showing a flowchart of the first electronic small blackboard output process executed by the computer 10 . This first electronic small blackboard output process is an electronic small blackboard generation process (step S5), details of the electronic small blackboard output process (step S6) for outputting the generated first electronic small blackboard.

The electronic small blackboard generating module generates a first electronic small blackboard reflecting the construction plan values and actual measured values of the construction management items determined to satisfy the construction management standards (step S60).
The electronic small blackboard generation module provides an electronic small blackboard in a predetermined format with construction details (type of work, area, pass/fail judgment result , construction plan values, actual measurement values, remarks, etc.) are input, and the first electronic small blackboard reflecting the construction plan values and actual measurement values of the construction control items determined to satisfy the construction control standards is generated (see FIG. 14 ).

The first electronic small blackboard generated by the electronic small blackboard generation module will be described with reference to FIG. This figure schematically shows an example of the first electronic small blackboard generated by the electronic small blackboard generation module. In the figure, a first electronic small board 40 is shown.
On the first electronic small blackboard 40, a construction type column 41, an area column 42, a pass/fail column 43, a construction plan value column 44, an actual measurement value column 45, and a remarks column 46 are displayed.
The work type column 41 is a column that reflects the name of the work type corresponding to the construction management item determined to satisfy the construction management criteria. The area column 42 is a column that reflects the name of the area corresponding to this type of work. The pass/fail column 43 is a column that reflects the pass/fail determination result of the first determination process for this construction management item. The construction plan value column 44 is a column that reflects the construction plan value for this construction management item set by the setting process. The measured value column 45 is a column that reflects the measured value for this construction control item acquired by the measured value acquisition process. The remarks column 46 is a column for reflecting the member name corresponding to this construction management item, the item name of this construction management item, the construction management criteria set by the setting process for this construction management item, and the like.
The electronic small blackboard generation module inputs the name of the work type (plumbing and sanitary facility work) corresponding to the construction management item determined to satisfy the construction management criteria as a result of the first determination processing in the work type column 41 . The electronic small blackboard generation module inputs the name of the area (fourth floor) of this construction type in the area column 42 . The electronic small blackboard generation module inputs the pass/fail determination result (“o” indicating pass) of the first determination process for this construction management item in the pass/fail column 43 . The electronic small blackboard generation module inputs the construction plan value (10 cm) in the construction plan value column 44 by the setting process for this construction management item. The electronic small blackboard generation module inputs the measured value (10 cm) in the measured value column 45 by the measured value acquisition process for this construction management item. The electronic small blackboard generation module sets the member name (member A) corresponding to this construction management item, the item name (length) of this construction management item, and the setting processing for this construction management item in the remarks column 46. Input the construction management standard (9 to 11 cm), etc. by the setting process.
As a result, the electronic small blackboard generation module generates the first electronic small blackboard reflecting the construction plan values and actual measurement values of the construction management items determined to satisfy the construction management standards.
Note that the content, arrangement, etc. of each column are not limited to the examples described above, and can be designed as appropriate.

Returning to FIG. 13, the continuation of the first electronic small blackboard output process will be described.
The electronic small board output module outputs the generated first electronic small board (step S61).
The electronic small blackboard output module transmits the generated first electronic small blackboard (first electronic small blackboard 40) to the field terminal. The field terminal receives this first electronic small board 40 and displays it on its own display unit.
The electronic small blackboard output module outputs the generated first electronic small blackboard by displaying the first electronic small blackboard 40 on the field terminal.

The above is the first electronic small blackboard output process.
The computer 10 can also be configured to store the generated first electronic small blackboard (first electronic small blackboard 40). In this case, the computer 10 may store the first electronic small board 40 in association with the construction site identifier or the like.

[Second Electronic Small Blackboard Output Processing Executed by Computer 10]
The second electronic small blackboard output process executed by the computer 10 will be described with reference to FIG. This figure is a diagram showing a flow chart of the second electronic small blackboard output process executed by the computer 10 .

The electronic small blackboard generation module compares the construction planned values and actual measured values of the construction control items determined not to satisfy the construction control standards with the construction planned values and actual measured values of the construction control items determined to satisfy the construction control standards. generates a second electronic small blackboard reflecting different attention levels (step S70).
Different attention levels in this process are, for example, different background colors, different character colors, different character sizes, and the like.
The electronic small blackboard generation module outputs to the electronic small blackboard in a predetermined format the construction details (work type, area, pass/fail judgment result , construction plan values, actual measurement values, remarks, etc.) are input, and a second electronic small blackboard reflecting the construction plan values and actual measurement values of the construction control items determined not to satisfy the construction control standards is generated. At this time, the electronic small blackboard generation module generates a second electronic small blackboard reflecting the construction plan values and the actual measurement values with a degree of attention different from that of the construction plan values and the actual measurement values in the first electronic small blackboard (see FIG. 16). ).

The second electronic small blackboard generated by the electronic small blackboard generation module will be described with reference to FIG. This figure schematically shows an example of the second electronic small blackboard generated by the electronic small blackboard generation module. In the figure, a second electronic small board 50 is shown.
On the second electronic small blackboard 50, a construction type column 51, an area column 52, a pass/fail column 53, a construction plan value column 54, an actual measurement value column 55, and a remarks column 56 are displayed.
The work type column 51 is a column that reflects the name of the work type corresponding to the construction management item determined not to satisfy the construction management standard. The area column 52 is a column that reflects the name of the area corresponding to this type of work. The pass/fail column 53 is a column that reflects the pass/fail determination result of the first determination process for this construction management item. The construction plan value column 54 is a column that reflects the construction plan value for this construction management item set by the setting process. The measured value column 55 is a column that reflects the measured value for this construction control item acquired by the measured value acquisition process. The remark column 56 contains the member name corresponding to this construction control item, the item name of this construction control item, the construction control criteria set by the setting process for this construction control item, and the first determination process for this construction control item. This is a column that reflects the contents of indications created by
The electronic small blackboard generation module inputs the name of the work type (plumbing and sanitary facility work) corresponding to the construction management item determined as not meeting the construction management standards as a result of the first determination processing in the work type column 51 . The electronic small blackboard generation module inputs the name of the area (fourth floor) of this construction type in the area column 52 . The electronic small blackboard generation module inputs the pass/fail determination result (“x” indicating that the construction management item is not passed) by the first determination process for this construction management item in the pass/fail column 53 . The electronic small blackboard generation module inputs the construction plan values (24 pieces) obtained by the setting process for the construction management items into the construction plan value column 54 with a degree of attention (change in background color) different from that of the first electronic small blackboard 40. do. The electronic small blackboard generation module inputs the actual measurement values (23) obtained by the actual measurement value acquisition process for this construction management item into the actual measurement value column 55 with a degree of attention (change in background color) different from that of the first electronic small blackboard 40. do. The electronic small blackboard generation module sets the member name (member A) corresponding to this construction management item, the item name (number of parts) of this construction management item, and the setting processing for this construction management item in the remarks column 56. Input the construction management criteria (24 items), the content of indications (insufficient number) created by the first determination process for the construction management items, and the like.
In the second electronic small blackboard 50, the background of the construction plan value column 54 and the actual measurement value column 55 is shown to show that the degree of attention of the construction plan value column 54 and the actual measurement value column 55 is different from that of the first electronic small blackboard 40. are colored by hatching.
As a result of the above, the electronic small blackboard generation module converts the construction plan values and actual measured values of the construction control items determined not to satisfy the construction control standards into the construction plan values of the construction control items determined to satisfy the construction control standards. and generate a second electronic small blackboard reflecting attention levels different from the measured values. Note that the content and arrangement of each column are not limited to the above examples.
In addition, although FIG. 16 shows an example in which the background color is changed as a different level of attention, instead of the background color, the character color or the character size may be changed, or You can change other contents.
Also, although the attention levels of only the construction plan values and actual measurement values are changed, the attention levels of other columns may also be changed.

Returning to FIG. 15, the continuation of the second electronic small blackboard output process will be described.
The electronic small blackboard output module outputs the generated second electronic small blackboard (step S71).
The electronic small blackboard output module transmits the generated second electronic small blackboard (second electronic small blackboard 50) to the field terminal. The field terminal receives this second electronic small board 50 and displays it on its own display unit.
The electronic small blackboard output module outputs the generated second electronic small blackboard by displaying the second electronic small blackboard 50 on the field terminal.

The above is the second electronic small blackboard output process.
The computer 10 can also be configured to store the generated second electronic small board (second electronic small board 50). In this case, the computer 10 may store the second electronic small board 50 in association with the construction site identifier or the like.

[Determination result list output by computer 10]
Based on FIG. 17, the determination result list output performed by the computer 10 will be described. This figure is a diagram showing a flow chart of determination result list output executed by the computer 10 .

The determination result list creation module creates a list summarizing the construction management items determined to satisfy the construction management criteria and the construction management items determined not to satisfy the construction management criteria (step S80).
As a result of the first determination process described above, the judgment result list creation module determines that the actual measurement value satisfies the construction management standard (construction management item judged to have passed), and the actual measurement value is the construction management standard A list summarizing the determination results for each construction control item is created based on the construction control item determined not to satisfy (construction control item determined not to pass). For example, the determination result list creation module creates a determination result list summarizing the determination results of all construction management items in the entire construction site (see FIG. 18).

A summary list of construction management items determined to meet the construction management criteria created by the determination result list creation module based on FIG. 18 and construction management items determined to not meet the construction management criteria will be described. . This figure is a diagram schematically showing an example of a determination result list created by the determination result list creation module. In the figure, a determination result list 60 is shown.
In the determination result list 60, a work type column 61, a member column 62, a construction management item column 63, and a pass/fail column 64 are shown.
The work type column 61 is a column showing the name of the work type. The member column 62 is a column indicating the names of members. The construction management item column 63 is a column showing construction management items of this member. The pass/fail column 64 is a column indicating whether the actual measurement value of this member passes or fails the construction management standard.
The determination result list creation module creates this determination result list 60 based on the determination result of each construction management item.
Note that the content, arrangement, etc. of each column are not limited to the examples described above, and can be designed as appropriate.
In addition, the determination result list 60 may include contents corresponding to other construction management items such as construction management standards, construction plan values, and actual measurement values.
Also, the determination result list 60 may include areas for each type of work. In addition, although only plumbing and sanitation work is shown in the work type column 61, it goes without saying that other work types may be included.

Returning to FIG. 17, the continuation of the determination result list output will be described.
The construction management item attention level change module changes the attention level of the construction management item determined to satisfy the construction management criteria and the construction management item determined not to satisfy the construction management criteria to different attention levels (step S81). .
Changes in the level of attention of construction management items in this process include, for example, changes in background color, character color, character size, and the like.
As a result of the above-described first determination process, the construction management item attention degree change module determines that the actual measurement value satisfies the construction management standard (the construction management item determined to have passed) A construction management item determined not to satisfy the management standard (construction management item determined not to pass) is changed to a different degree of attention. For example, the construction management item attention level change module may display the background color of the construction management item determined to be acceptable and the determination result in the determination result list 60 shown in FIG. Change the background color of the results to a different color (see Figure 19).

Based on FIG. 19, the attention level changed by the construction management item attention level change module will be described. This figure is a diagram schematically showing an example of a determination result list in which the construction management item attention level change module has changed the attention level. In the figure, a determination result list 70 is shown.
The determination result list 70 is the same as the determination result list 60 described above, except that the degree of attention is changed.
In the determination result list 70, a work type column 71, a member column 72, a construction management item column 73, and a pass/fail column 74 are shown. The work type column 71 is the same as the work type column 61 described above, the member column 72 is the same as the member column 62 described above, and the construction management item column 73 is the same as the construction management item column 63 described above. The pass/fail column 74 is similar to the pass/fail column 64 described above.
The construction control item attention degree change module colors the background color of the construction control item and the judgment result judged to be acceptable and the background color of the construction control item and the judgment result judged to be unacceptable in different colors. In FIG. 19, the construction control items and judgment results determined to be acceptable and the construction control items and determination results determined not to be acceptable are indicated by different background colors.
Note that FIG. 19 shows an example in which the construction management item attention level change module changes the background color. It's fine, and you can change other things.
Further, the construction management item attention level change module may change the attention level of only the construction management item, may change the attention level of only the determination result, or may change the attention level of other columns. can be Further, the construction management item attention level change module may change only the attention level of either the attention level of the construction type determined to be acceptable or the attention level of the construction type determined to be unacceptable.
Also, the determination result list 70 may include areas for each type of work.

Returning to FIG. 17, the continuation of the determination result list output will be described.
The determination result list output module outputs the construction management items determined to satisfy the construction management criteria and the construction management items determined to not satisfy the construction management criteria with different degrees of attention (step S82).
The judgment result list output module outputs a list (judgment result list 70) in which the construction management items and judgment results judged to be acceptable and the construction management items and judgment results judged to be unacceptable are changed to different degrees of attention (judgment result list 70) to the field terminal. Send to The field terminal receives this determination result list 70 and displays it on its own display unit.
The determination result list output module displays the determination result list 70 on the field terminal, thereby displaying the construction management items determined to satisfy the construction management criteria and the construction management items determined not to satisfy the construction management criteria. and are output with different degrees of attention.

The above is the judgment result list output.
In addition, the computer 10 stores a list (determination result list 60) and the aforementioned There is also a configuration for storing a list (judgment result list 70) in which the construction management items determined to satisfy the construction management criteria and the construction management items determined to not satisfy the construction management criteria are changed to different degrees of attention. It is possible. In this case, the computer 10 may store the determination result list 60 and the determination result list 70 in association with the construction site identifier or the like.
In addition, the computer 10 creates a list (determination result list 60) summarizing the construction management items determined to satisfy the construction management criteria described above and the construction management items determined not to satisfy the construction management criteria. A configuration for output is also possible. In this case, the computer 10 may perform processing similar to that of the determination result list 70 .

[Item List Output Processing Executed by Computer 10]
Based on FIG. 20, the item list output process executed by the computer 10 will be described. This figure is a diagram showing a flowchart of the item list output process executed by the computer 10 .

The item list creation module creates a list of construction management items determined not to satisfy the construction management criteria (step S90).
The item list creation module creates a list summarizing the construction control items (construction control items determined not to pass) determined that the measured values do not meet the construction control criteria as a result of the first determination process described above. . For example, the item list creation module creates an item list summarizing the construction management items that have been determined to be unacceptable for the entire construction site (see FIG. 21).

With reference to FIG. 21, a list of construction management items determined to be unacceptable for the entire construction site created by the item list creation module will be described. This figure schematically shows an example of an item list created by the item list creation module. In the figure, an item list 80 is shown.
The item list 80 includes a work type column 81, a member column 82, a construction management item column 83, and an indication content column 84.
The work type column 81 is a column showing the name of the work type. The member column 82 is a column indicating the names of members. The construction management item column 83 is a column showing construction management items of this member. The indicated content column 84 is a column for indicating the indicated content for this construction management item.
The item list creation module creates this item list 80 based on the construction management items determined not to have passed as a result of the first determination process described above.
Note that the content, arrangement, etc. of each column are not limited to the examples described above, and can be designed as appropriate.
In addition, the item list 80 may include contents corresponding to other construction management items such as construction management standards, construction plan values, and measured values.
Also, the item list 80 may include an area for each type of work.

Returning to FIG. 20, the continuation of the item list output process will be described.
The item list output module outputs a list summarizing the construction management items determined not to satisfy the construction management criteria (step S91).
The item list output module transmits a list (item list 80) in which the construction management items determined not to satisfy the construction management criteria are collected to the field terminal. The field terminal receives this item list 80 and displays it on its own display unit.
The item list output module displays the item list 80 on the site terminal, thereby outputting a list of construction management items determined not to satisfy the construction management criteria.

The above is the item list output processing.
It should be noted that the computer 10 can also be configured to store a list (item list 80) of construction management items that have been determined not to satisfy the construction management criteria described above. In this case, the computer 10 may store the item list 80 in association with the construction site identifier or the like.

[Drawing Data Acquisition Processing Executed by Computer 10]
Drawing data acquisition processing executed by the computer 10 will be described with reference to FIG. This figure is a diagram showing a flowchart of drawing data acquisition processing executed by the computer 10 .

The drawing data acquisition module acquires the drawing data of the construction site (step S100).
The drawing data is data representing a drawing of a construction site.
The drawing data acquisition module acquires this drawing data from the external database. The drawing data acquisition module requests transmission of this drawing data from the external database, and acquires necessary drawing data. Alternatively, the drawing data acquisition module acquires this drawing data from the field terminal. The field terminal transmits the drawing data of the drawing taken by itself or the drawing data stored by itself to the computer 10 . The drawing data acquisition module receives this drawing data and acquires this drawing data.
It should be noted that the method by which the drawing data acquisition module acquires this drawing data is not limited to the example described above, and can be designed as appropriate.

The layer generation module generates a layer superimposed on the acquired drawing data (step S101).
A layer is a transparent virtual sheet superimposed on drawing data, and can output various data such as icons, images, figures, and texts.
The layer generation module generates a virtual sheet having a size that overlaps part or all of the acquired drawing data as a layer, and overlaps the acquired drawing data.
Note that one layer may be superimposed on the drawing data, or a plurality of layers may be superimposed. When stacking multiple layers, different data may be output for each layer. Also, the settings (size, thickness, shape, color, etc.) of the layer to be generated can be designed as appropriate, and are not particularly limited.

The drawing data storage module stores the generated layered drawing data (step S102).
The drawing data storage module stores the drawing data in association with the construction site identifier or the like.

The above is the drawing data acquisition process.
The electronic small blackboard output system 1 uses the drawing data acquired by the above-described drawing data acquisition processing to execute the processing described later.

[Icon Figure Arrangement Process Executed by Computer 10]
Based on FIG. 23, the icon figure arrangement processing executed by the computer 10 will be described. This figure is a diagram showing a flowchart of the icon figure arrangement processing executed by the computer 10 .

The icon graphic creation module creates an icon or graphic corresponding to each type of work placed on the generated layer (step S110).
Icons are, for example, pins, marks, symbols, and characters. The graphics are, for example, rectangles, polygons, circles, ellipses, and sectors.
The icon figure creating module creates different icons or figures associated with each type of work. The icon graphic creation module may create an icon or graphic using preset various icons or graphics, or may create a new icon or graphic.
The icon figure creating module creates an icon or figure corresponding to each kind of work by associating the created icon or figure with the kind of work.
Note that the types of icons or graphics created by the icon graphic creation module are not limited to the examples described above, and can be designed as appropriate. Also, the method by which the icon graphic creation module creates icons or graphics is not limited to the above examples, and can be designed as appropriate.

The icon figure attention level change module changes the attention level of the created icon or figure based on the determination result (step S111).
A change in the attention level of an icon or graphic in this process is, for example, a change in the size, color, or the like of the icon or graphic.
The icon figure attention level changing module changes the icon or figure corresponding to the work type determined to be acceptable as a result of the second determination process and the icon or figure corresponding to the work type determined not to be acceptable to different attention levels. The icon figure attention level changing module, for example, changes the size and color of the icon or figure corresponding to the construction type determined to be acceptable to make it less conspicuous, and makes the icon or figure corresponding to the construction type determined to be unacceptable more conspicuous. Change the size and color to suit your needs.
Note that the icon figure attention level change module changes the attention level of both the icon or figure corresponding to the construction type determined to be acceptable and the icon or figure corresponding to the construction type determined to be unacceptable. Alternatively, the attention level of either one of the icons or figures may be changed.
In addition, the attention level changed by the icon figure attention level change module is not limited to the above example. The size and color may be changed to change the size and color of the icon or figure corresponding to the type of work judged to be unacceptable to a more conspicuous size and color, or the degree of attention may be changed by other methods, It can be designed as appropriate.

The icon graphic arrangement module arranges the icon or graphic associated with the type of construction, the degree of attention of which has been changed based on the determination result, on the generated layer (step S112).
The icon graphic arrangement module arranges the created icon or graphic whose attention level has been changed on the generated layer. The icon figure placement module places an icon or figure at a location on the drawing data corresponding to the work type. For example, the icon graphic placement module identifies the layout location on the drawing data based on the area corresponding to the work type, and places the icon or graphic in the identified layout location (see FIG. 24).
Note that the icon figure placement module may receive an input regarding the place where the icon or figure is to be placed from the manager or worker via the field terminal, and place the icon or figure at the accepted place. For example, the field terminal accepts an input of an icon or figure arrangement location desired by a manager or a worker for drawing data to be displayed on its own display unit, and specifies the coordinates of the accepted icon or figure arrangement location. do. The coordinates may be obtained by using a predetermined point of the drawing data as the origin. The field terminal transmits the coordinates to computer 10 . The icon graphic arrangement module may arrange the icon or graphic based on the coordinates of the arrangement location.

Icons arranged by the icon graphic arrangement module will be described with reference to FIG. This figure is a diagram schematically showing an example of a state in which icons are arranged in drawing data. In the figure, icons 91 to 94 arranged in drawing data 90 are shown.
Each of the icons 91 to 94 is an icon corresponding to a construction type, and is arranged at the location on the drawing data of the construction type associated with each icon. The icons 91 to 93 and the icon 94 are shown with different degrees of attention. Icons 91-93 are black and icon 94 is hatched to indicate different degrees of attention. Here, each of the icons 91 to 93 is associated with the type of work determined to be acceptable as a result of the second determination process, and the icon 94 is determined not to be acceptable as a result of the second determination process. Corresponds to the type of work.
FIG. 24 shows an example in which icons are arranged, but figures may be arranged instead of icons, or both icons and figures may be arranged. An icon may be used to indicate the type of work determined to be unacceptable, or vice versa.
Also, the icons or graphics may differ in the degree of attention depending on the difference in size instead of the color.

Returning to FIG. 23, the continuation of the icon figure layout processing will be described.
The icon figure output module outputs drawing data in which icons or figures are arranged (step S113).
The icon graphic output module transmits drawing data (drawing data 90) in which icons or graphics are arranged to the field terminal. The field terminal receives this drawing data 90 and displays it on its own display unit.
The icon graphic output module outputs drawing data in which icons or graphics are arranged by displaying the drawing data 90 on the field terminal.

The above is the icon figure layout processing.
The computer 10 can also be configured to store drawing data (drawing data 90) in which icons or graphics are arranged by the icon graphic arrangement processing described above. In this case, the computer 10 may store the drawing data 90 in association with the construction site identifier or the like.

Although each process described above is described as a separate process, the computer 10 can also be configured to execute a part or all of the above processes in combination. Further, the computer 10 can be configured to execute the processing even at timings other than the timings described in each processing.

The means and functions described above are realized by a computer (including a CPU, an information processing device, and various terminals) reading and executing a predetermined program. The program may be provided, for example, from a computer via a network (SaaS: software as a service) or as a cloud service. Also, the program may be provided in a form recorded on a computer-readable recording medium. In this case, the computer reads the program from the recording medium, transfers it to an internal recording device or an external recording device, records it, and executes it. Alternatively, the program may be recorded in advance in a recording device (recording medium) and provided from the recording device to the computer via a communication line.

Although the embodiments of the present invention have been described above, the present invention is not limited to these embodiments described above. Moreover, the effects described in the embodiments of the present invention are merely enumerations of the most suitable effects resulting from the present invention, and the effects of the present invention are limited to those described in the embodiments of the present invention. isn't it.

A first aspect disclosed in this embodiment is an electronic small blackboard output system that outputs an electronic small blackboard,
a creation unit 13 that creates construction management items for each member necessary for the construction type corresponding to each area of the construction site;
a setting unit 14 for setting construction management standards and construction plan values for each item of the created construction management items;
a measured value acquiring unit 11 for acquiring measured values of each item of the construction management items;
A determination unit 15 that determines whether the obtained actual measurement value satisfies the set construction management standard;
an electronic small blackboard generation unit 16 that generates a first electronic small blackboard reflecting the construction plan values and actual measured values of the construction control items determined to satisfy the construction control criteria;
an electronic small blackboard output unit 12 for outputting the generated first electronic small blackboard;
electronic small blackboard output system.

In a second aspect disclosed in the present embodiment, the construction management item determined to satisfy the construction management criteria and the construction management item determined to not satisfy the construction management criteria are given different degrees of attention. a determination result output unit for output;
The electronic small board output system of the first aspect, further comprising:

A third aspect disclosed in the present embodiment is an item list output unit that outputs a list of construction management items determined to not satisfy the construction management criteria,
The electronic small board output system of the first aspect, further comprising:

A fourth aspect disclosed in the present embodiment is a drawing data acquisition unit that acquires drawing data of the construction site;
a layer generation unit that generates a layer to be superimposed on the acquired drawing data;
an arrangement unit for arranging, on the generated layer, an icon or figure associated with the construction type, the degree of attention of which has been changed based on the judgment result of the judgment unit;
The electronic small board output system of the first aspect, further comprising:

In a fifth aspect disclosed in the present embodiment, the electronic small blackboard generation unit converts the construction plan values and actual measured values of the construction control items determined not to satisfy the construction control standards to Generate a second electronic small blackboard that reflects with a degree of attention different from the construction plan value and actual measurement value of the construction management item determined to be
The electronic small blackboard output unit outputs the generated second electronic small blackboard.
An electronic small board output system according to the first aspect.

1 Electronic Small Blackboard Output System 7 Network 10 Computer 11 Measured Value Acquisition Unit 12 Electronic Small Blackboard Output Unit 13 Creation Unit 14 Setting Unit 15 Judgment Unit 16 Electronic Small Blackboard Generation Unit 20 Template 21 Member Column 22 Construction Control Item Column 23 Construction Control Criteria Column 24 Construction Plan Value Column 25 Actual Measured Value Column 26 Pass/Fail Column 27 Indication Details Column 30 Work Type List 31 Work Type Column 32 Pass/Fail Column 40 1st Electronic Small Blackboard 41 Work Type Column 42 Area Column 43 Pass/Fail Column 44 Construction Plan Value Column 45 Actual Measured Value Column 46 Remark column 50 Second electronic small blackboard 51 Work type column 52 Area column 53 Pass/fail column 54 Construction plan value column 55 Actual measurement value column 56 Remark column 60, 70 Judgment result list 61, 71 Work type column 62, 72 Material column 63, 73 Construction Control item column 64, 74 Pass/fail column 80 List of items 81 Construction type column 82 Parts column 83 Construction control item column 84 Indication content column 90 Drawing data 91-94 Icon

Claims (7)

An electronic small blackboard output system for outputting an electronic small blackboard,
a creation unit that creates construction management items for each member required for the type of construction corresponding to each area of the construction site;
a setting unit that sets construction management standards and construction planning values for each item of the created construction management items;
a measured value acquisition unit that acquires measured values for each item of the construction management items;
a determination unit that determines whether the obtained actual measurement value satisfies the set construction management standard;
an electronic small blackboard generation unit that generates a first electronic small blackboard reflecting the construction plan values and actual measured values of the construction control items determined to satisfy the construction control criteria;
an electronic small blackboard output unit that outputs the generated first electronic small blackboard;
electronic small blackboard output system. A determination result output unit that outputs the construction management item determined to satisfy the construction management criteria and the construction management item determined to not satisfy the construction management criteria with different degrees of attention;
The electronic small board output system of claim 1, further comprising: an item list output unit for outputting a list of construction management items determined not to satisfy the construction management criteria;
The electronic small board output system of claim 1, further comprising: a drawing data acquisition unit that acquires drawing data of the construction site;
a layer generation unit that generates a layer to be superimposed on the acquired drawing data;
an arrangement unit for arranging, on the generated layer, an icon or figure associated with the construction type, the degree of attention of which has been changed based on the judgment result of the judgment unit;
The electronic small board output system of claim 1, further comprising: The electronic small blackboard generation unit converts the construction plan values and actual measured values of the construction control items determined not to satisfy the construction control standards into the construction plan values and actual measured values of the construction control items determined to satisfy the construction control standards. Generating a second electronic small blackboard reflecting a degree of attention different from the measured value,
The electronic small blackboard output unit outputs the generated second electronic small blackboard.
The electronic small board output system of claim 1. An electronic small blackboard output method executed by a computer that outputs an electronic small blackboard,
a step of creating construction management items for each member necessary for a construction type corresponding to each area of the construction site;
a step of setting construction management standards and construction planning values for each item of the created construction management items;
a step of acquiring an actual measurement value of each item of the construction control items;
a step of determining whether or not the obtained measured value satisfies the set construction management standard;
a step of generating a first electronic small blackboard reflecting the construction plan values and actual measurement values of the construction control items determined to satisfy the construction control criteria;
outputting the generated first electronic small board;
An electronic small board output method comprising: To the computer that outputs the electronic small board,
a step of creating construction management items for each member necessary for the type of work corresponding to each area of the construction site;
A step of setting construction management standards and construction plan values for each item of the created construction management items;
a step of acquiring the measured value of each item of the construction control items;
Determining whether the obtained actual measurement value satisfies the set construction management standard,
A step of generating a first electronic small blackboard reflecting the construction plan values and actual measurement values of the construction control items determined to satisfy the construction control criteria;
outputting the generated first electronic small blackboard;
A computer readable program for executing

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