JP2020052980A - Construction management system and construction management method - Google Patents

Abstract

To allow for appropriately permitting or restricting construction work according to a proficiency level of a construction worker on the construction work.SOLUTION: A construction management system is provided, comprising: a storage unit configured to store a test result of each construction worker; and a certificate issuance unit configured to perform a process corresponding to each construction worker upon issuance of a certificate based on a test result.SELECTED DRAWING: Figure 9

Description

  The present invention relates to a construction management system and a construction management method.

2. Description of the Related Art There is known an electrofusion joint in which a pipe made of a thermoplastic material such as polyethylene can be connected by electrofusion. Such an electrofusion joint includes an indicator indicating whether or not the fusion has been performed normally.
The following technologies are known in order to ensure the function of the indicator of the electrofusion joint. That is, after the expiration date of the electrofusion joint is determined, a barcode including manufacturing date specifying information for specifying the manufacturing date is provided on the electrofusion joint. The electric fusion device that supplies electricity to the electric fusion joint for the purpose of fusing reads the barcode provided on the electric fusion joint to obtain the manufacturing date specifying information. The acquired manufacturing date specifying information is transmitted to the joint management device. The joint management device determines whether or not the expiration date of the electro-fused joint has passed based on the received manufacturing date specifying information. The electrofusion device determines whether or not to energize the electrofusion joint according to the determination result as to whether the expiration date of the electrofusion joint has passed. (For example, see Patent Document 1).

JP-A-2005-98124

When the operator who actually performs the fusion work of the electrofusion joint using the electrofusion device is required to have a certain level of skill (technique or knowledge) in the fusion work. There is. In other words, with regard to such electric fusion joints, while a contractor who has acquired a certain level of technology and knowledge can use the electric fusion device normally, he or she can use the electric fusion device at a certain level or higher. The installer who has not acquired the knowledge is required to operate so that the electric fusion device cannot be used. It is preferable that whether or not such an electric fusion device can be used can be performed under the construction management system, since the above operation can be appropriately realized.
In the technology described in Patent Document 1, it is possible to prevent the use of an electrofused joint whose expiration date has passed, but depending on whether the installer has acquired a certain level of technology or knowledge. It is not possible to set whether or not to perform the electric fusion work.

  The present invention has been made in view of such circumstances, and it is an object of the present invention to appropriately permit and restrict construction work in accordance with a learning situation of a construction work performed by a constructor.

  One aspect of the present invention for solving the above-described problem is that a test result management unit that stores a test result for each constructor in a storage unit, and that a certificate corresponding to the constructor is issued based on the test result. It is a construction management system including a certificate issuing unit that executes a corresponding process.

  Further, one embodiment of the present invention executes a test result management step of storing a test result for each builder in a storage unit, and a process corresponding to issuance of a certificate based on the test result corresponding to the builder. This is a construction management method including a certificate issuing step.

  As described above, according to the present invention, it is possible to obtain an effect that it is possible to appropriately realize the permission and restriction of the construction work according to the learning situation regarding the construction work of the constructor.

It is a figure showing the example of composition of the construction management system in this embodiment. It is a figure showing the example of composition of the online test server in this embodiment. It is a figure showing the example of composition of the construction management server in this embodiment. It is a figure showing the example of composition of the electric fusion device in this embodiment. It is a flow chart which shows an example of a processing procedure which a builder terminal and an online test server execute in connection with issuance of a certificate in this embodiment. It is a figure showing an example of builder basic information and certification information in this embodiment. It is a flow chart which shows an example of a processing procedure which a construction management server in this embodiment performs in connection with creation of place unit construction information. It is a figure showing an example of property information and place unit construction information in this embodiment. It is a flowchart which shows the example of the processing procedure which the electric fusion apparatus in this embodiment and a construction management server perform according to the fusion | fusion operation performed in a construction site. It is a figure showing an example of joint attachment information in this embodiment. It is a figure showing an example of construction result information in this embodiment.

  FIG. 1 shows a configuration example of a construction management system according to the present embodiment. The construction management system of the present embodiment manages a fusion work performed as one of construction works at a construction site FL. The fusion work is a work of fusing an electric fusion joint 800 (an example of a material) to the pipes 700, 700, for example, to join the two pipes 700, 700.

The construction management system shown in FIG. 1 includes, as devices, an online test server 100, a construction management server 200, a builder terminal 300, a construction company terminal 400, and an electric fusion device 600 (an example of a construction device).
The online test server 100 and the construction management server 200 are operated by a maker MK that provides the electric fusion joint 800.
The contractor terminal 300 and the contractor terminal 400 are owned by the contractor CT. The contractor terminal 300 is operated by a contractor WK working at the contractor CT.
The electric fusion device 600 is owned by, for example, a contractor CT as a fixture, and is used by the constructor WK to fuse the electric fusion joint 800 to the pipe 700 at the construction site FL.

  The online test server 100 is a server that executes a test on the installer WK in response to a login from the installer terminal 300. Depending on the test performed by the online test server 100, the installer WK may have a certain level of skill or more (here, the predetermined items related to the technology and knowledge required for the fusion work) for the fusion work of the electric fusion joint 800. Is determined.

  For example, the fusion work of the electric fusion joint 800 at the construction site FL should be limited to those who have passed the test performed by the online test server 100, and is specified by the prime contractor in charge of the construction site. I have. The contractor CT is, for example, a primary contractor or a subcontractor undertaking business from the primary contractor. Therefore, the builder WK of the builder CT prepares to pass the test performed by the online test server 100 before performing the fusion work at the construction site FL.

First, as a preparation for passing the test, the installer WK registers the installer basic information in the online test server 100. The builder basic information includes the name of the builder WK, the name of the company to which the builder belongs, face photo data, and the like. The constructor WK accesses the registration site of the constructor basic information of the online test server 100 using the constructor terminal 300, for example, and performs operations such as inputting necessary items and transmitting face photograph data. Register basic user information.
The installer WK who has registered the installer basic information receives a practical training course of the fusion work hosted by the maker MK. The builder MK is provided with the login password for logging in to the website of the online course provided by the online test server 100 to the installer WK who has completed the practical skill course. The login password may be generated, for example, in accordance with the installer basic information registered by the installer WK first.
The installer WK accesses the website of the online course using the installer terminal 300 and logs in by inputting, for example, predetermined information in registered installer basic information and the provided password. At the website where the user logs in, first, a lecture on the fusion work is given as a review of the practical skill course. The installer WK receives a lecture to be held. At the end of the lecture, the exam will be conducted. As a mode of the test, a predetermined number of short-answer type questions are successively set, and the installer WK answers the set questions.

As a result of scoring the test performed by the online test server 100 as described above, a certificate 500 is issued by the manufacturer MK to the installer WK determined to have a certain level of skill or higher.
The certificate 500 may be provided as a medium in the form of a physical card, for example. In this case, the certificate 500 is provided from the manufacturer MK to the installer WK, for example, by mail.
The certificate 500 may be transmitted from the online test server 100 to the installer WK via online. In this case, the certificate 500 can be displayed on a portable terminal (smartphone, tablet terminal, or the like) owned by the installer WK, for example.
In the following description, a case where the certificate 500 is provided as a medium in the form of a physical card will be exemplified.

The certificate 500 functions as a certificate certifying that the installer WK has passed the test performed by the online test server 100 and has been certified as having a certain level of skill or higher. The certificate 500 includes, for example, a photograph of a technician's face and a barcode 510 including information for identifying the certificate.
The online test server 100 generates certificate information (an example of construction qualification information) in association with the installer WK that has passed the online test, and stores the generated certificate information. The certificate information includes data of the face photograph in the certificate 500 and information indicated by the barcode 510.

The construction management server 200 performs construction management relating to the fusion work of the electric fusion device 600 at the construction site FL.
Property information is registered from the contractor terminal 400 to the construction management server 200. The property information includes information on a predetermined item related to a property constructed (constructed) corresponding to the construction site FL. The property information includes information on a drawing (construction drawing) of the target property.
The construction management server 200 creates location unit construction information using the registered property information. The place unit construction information is information corresponding to each place where the fusion work is performed in the target property, and includes information (construction management reference information) indicating criteria for construction and management related to the construction. The construction management criterion information is information indicating a criterion for construction and management required for a fusion work of the electric fusion joint 800 to be fused at a corresponding place.
When creating the location unit construction information, the construction management server 200 assigns an identifier (place identifier) to each place (construction place) where the electric fusion joint 800 is constructed in the construction drawing of the target property acquired from the property information. Attach. The location identifier may be, for example, a serial number assigned to each construction location in the construction drawing in an order according to a predetermined rule.

  As described above, a plurality of pieces of place unit construction information are created so as to be associated with each place identifier. That is, a plurality of pieces of location unit construction information per property are created corresponding to each construction location where the electric fusion joint 800 is constructed in the property. This identifier has a function of identifying the construction place because it is associated with the corresponding place. However, since one electrofusion joint 800 is constructed at the construction place, the electrofusion joint set as the construction target is It also has a function of identifying the 800. Therefore, hereinafter, the place identifier associated with the place unit construction information is treated as a joint identifier for identifying the electric fusion joint 800 to be attached by the fusion work (construction) at the corresponding construction place.

  In the present embodiment, the construction sheet 900 on which the barcode 910 corresponding to each place-based construction information created by the construction management server 200 is printed is provided from the manufacturer MK to the construction site FL. The barcode 910 printed on the construction sheet 900 includes a joint identifier associated with the construction location corresponding to the location unit construction information.

The contractor WK who has been awarded the certificate 500 goes to the construction site FL and carries out the fusion work after having the certificate 500. The installer WK uses the electric fusion device 600 for the fusion work.
The electric fusion device 600 includes a bar code reader 602. The installer WK first performs an operation of reading the barcode 510 of his / her own certificate 500 using the barcode reader 602 before performing, for example, the fusion work of one electric fusion joint 800. In addition, the installer WK performs an operation of causing the barcode reader 602 to read the barcode 910 corresponding to the location of the current fusion work from among the barcodes 910 of the installation sheet 900.
The electric fusion device 600 transmits a construction qualification confirmation request including the certification identifier read from the barcode 510 of the certification 500 and the joint identifier read from the barcode 910 of the construction sheet 900 to the construction management server 200.
The construction management server 200 acquires, from the online test server 100, certificate information associated with the certificate identifier included in the received construction qualification confirmation request. In addition, the construction management server 200 acquires the place unit construction information associated with the joint identifier included in the received construction qualification confirmation request.
The construction management server 200 determines whether or not the certification content of the installer WK indicated by the acquired certificate information satisfies the criteria indicated by the construction management standard information included in the acquired location-based construction information. . The construction management server 200 has the qualification (construction qualification) for the installer WK to perform the fusion work of the electric fusion joint 800 at the current location based on the determination result of whether or not the standard is satisfied. Is determined. The construction management server 200 transmits the determination result as to whether or not the construction is qualified to the electric fusion device 600.
In this case, since the builder WK has the certificate 500 for the fusion work of the electric fusion joint 800 to be worked, the construction management server 200 returns the determination result indicating that he has the construction qualification to the fusion welding. It is transmitted to the receiving device 600.
In this case, since the received determination result indicates that the electric fusion device 600 has the construction qualification, the electric fusion device 600 normally performs an operation according to the operation of the installer WK corresponding to the subsequent fusion work. .

For example, unless the installer WK causes the electric fusion device 600 to read the barcode 510 of the certificate 500, a determination result that the installer WK has the installation qualification cannot be obtained. For this reason, the electric fusion device 600 is not set to be able to accept even if an operation corresponding to fusion work such as energization is performed at a stage before reading the barcode 510 of the certificate 500. In this case, the state where reception is not possible is maintained.
On the other hand, even if the electric fusion apparatus 600 reads the bar code 510 of the certificate 500, for example, the electric fusion joint to be constructed does not have the construction qualification in the certificate 500 possessed by the installer WK. In the case of, the determination result that the installer WK has the construction qualification cannot be obtained. In this case, the operation of the electric fusion device 600 corresponding to the fusion operation is prohibited. Specifically, the electric fusion device 600 does not accept an operation even if an operation related to the fusion operation is performed by, for example, the installer WK. In this case, the electric fusion device 600 may notify, for example, by a display or a sound that the construction certificate is not possessed by the certificate 500 possessed by the constructor WK.

When the determination result that the user has the construction qualification is obtained, the installer WK uses the barcode reader 602 to operate the barcode 810 provided on the electrofusion joint 800 as an operation corresponding to the fusion work. Perform the operation to read. The barcode 810 is printed on, for example, a sheet of paper, and the paper is attached to the surface of the tube main body of the electrofusion joint 800.
The bar code 810 of the electric fusion joint 800 records information on the electric fusion joint 800. Specifically, the barcode 810 records information about the individual as the electrofusion joint 800, such as the manufacturer, the type, size, serial number, and SDR value (coefficient of outer wall thickness) of the electrofusion joint. Have been. Further, the barcode 810 records predetermined information indicating energization conditions such as the type of raw material of the heating wire and the allowable value of resistance change, energized voltage, standard resistance value, resistance tolerance, energized time, and temperature correction coefficient. Have been.
The electric fusion device 600 that has acquired the information of the barcode 810 transmits the information of the barcode 810 to the construction management server 200.

The construction management server 200 collates the information of the barcode 810 with the corresponding place unit construction information, and the electric fusion joint 800 to be constructed is suitable for the construction at the current construction place. A determination is made as to whether or not the item is a device. The construction management server 200 transmits the determination result on the suitability to the electric fusion device 600.
If the electric fusion device 600 receives the determination result that it is suitable, the electric fusion device 600 maintains the setting that can accept the operation of the installer WK corresponding to the fusion operation as it is. In this case, the installer WK performs the fusion work according to the procedure as taken. In the fusion work, after the connector 604 of the electric fusion device 600 is connected to the electrode 801 of the electric fusion joint 800 to be constructed, the electric fusion is performed according to a predetermined energization condition (voltage, energization time, etc.). An operation of energizing the joint 800 is included.

On the other hand, when the electric fusion device 600 receives the determination result indicating that it is not suitable, it sets the operation of the installer WK corresponding to the fusion work to be unacceptable. In this case, for example, the electric fusion device 600 may be notified by a display or a sound that the electric fusion joint 800 is not suitable for the construction at the current construction site.
As described above, by restricting the operation of the electric fusion device 600 in accordance with the determination result of the compatibility, for example, the installer WK uses another electric fusion joint 800 that does not correspond to the construction location to perform fusion. Performing the wearing operation is prevented.

  When the operation for fusing one electrofusion joint 800 is completed, the electrofusion apparatus 600 transmits construction result information indicating an operation result (construction result) of the electrofusion apparatus 600 according to the current fusion. To the construction management server 200. The construction management server 200 manages the received construction result information as construction history information.

A configuration example of the online test server 100 will be described with reference to FIG. The online test server 100 of FIG. 1 includes a communication unit 101, a control unit 102, and a storage unit 103.
The communication unit 101 communicates with the installer terminal 300 via a network.

  The control unit 102 executes various controls in the online test server 100. The function as the control unit 102 is realized when a CPU (Central Processing Unit) included in the online test server 100 executes a program. The control unit 102 in FIG. 2 includes a test execution unit 121 and a certificate issuing unit 122.

The test execution unit 121 performs a test for the installer WK operating the installer terminal 300 by communicating with the installer terminal, and obtains a test result. Specifically, the test execution unit 121 provides the website of the online course to the installer terminal 300 in response to the login from the installer terminal 300. That is, the online test server 100 including the test execution unit 121 functions as a web server that provides online courses.
Online course websites include web pages for online courses conducted prior to the exam, as well as web pages corresponding to the exam. The test implementation unit 121 also performs an online course before the test in addition to the implementation of the test.

  The certificate issuing unit 122 performs a process according to the issuance of a certificate based on the test result. For example, the certificate issuing unit 122 determines whether the certificate 500 can be issued based on the results of the test performed by the test performing unit 121. If it is determined that the certificate 500 is to be issued, the certificate issuing unit 122 creates certificate information for the installer WK that has passed the test, and stores the created certificate information in the certificate information storage unit 132. Remember.

The storage unit 103 stores various information corresponding to the online test server 100. The storage unit 103 in the figure includes a builder basic information storage unit 131 and a certificate information storage unit 132.
The builder basic information storage unit 131 stores builder basic information transmitted from the builder terminal 300. The certificate information storage unit 132 stores the certificate information.

A configuration example of the construction management server 200 will be described with reference to FIG. The construction management server 200 of FIG. 1 includes a communication unit 201, a control unit 202, and a storage unit 203.
The communication unit 201 communicates with the contractor terminal 400 and the electric fusion device 600 via the network.

The control unit 202 executes various controls in the construction management server 200. The function as the control unit 202 is realized by causing a CPU included in the construction management server 200 to execute a program. The control unit 202 shown in the figure includes a construction information creation unit 221, a qualification determination unit 222, and a construction history management unit 223.
The construction information creation unit 221 creates location-based construction information.
The qualification determination unit 222 determines, based on the result of collation of the certificate information and the construction management reference information, that the installer WK corresponding to the certificate information performs a fusion work of the electric fusion joint 800 (a predetermined construction work). It is determined whether or not the user has a construction qualification to perform the example.
The construction history management unit 223 manages construction history information.

The storage unit 203 stores various information corresponding to the construction management server 200. The storage unit 203 in FIG. 3 includes a property information storage unit 231, a location-based construction information storage unit 232, and a construction history information storage unit 233.
The property information storage unit 231 stores property information transmitted from the contractor terminal 400.
The location unit construction information storage unit 232 stores the location unit construction information created by the construction information creation unit 221.
The construction history information storage unit 233 stores construction history information under the control of the construction history management unit 223.

With reference to FIG. 4, a configuration example of the electrofusion device 600 will be described. The electric fusion device 600 shown in FIG. 9 includes a communication unit 601, a barcode reader 602, a control unit 603, a connector 604, and a storage unit 605.
The communication unit 601 communicates with the construction management server 200 via a network. Since the electric fusion device 600 is carried by the installer WK at the construction site FL, the communication by the communication unit 601 is preferably wireless.
The barcode reader 602 obtains information recorded as a barcode by reading the barcode.

  The control unit 603 executes various controls in the electric fusion device 600. The function as the control unit 603 is realized by causing a CPU included in the electric fusion device 600 to execute a program. The control unit 603 of FIG. 9 includes an operation restriction control unit 631, an energization control unit 632, and a construction result information processing unit 633.

When the qualification determination unit 222 of the construction management server 200 determines that there is no qualification to perform the construction work, the operation restriction control unit 631 controls the operation of the electric fusion device 600 to be restricted.
The energization control unit 632 executes control related to energization of the electric fusion joint 800 for joining the pipes 700, 700 (an example of the fusion target). The energization control unit 632 sets various energization control parameters (e.g., energization time and energization voltage) according to the energization conditions indicated by the barcode information read by the barcode reader 602. The energization control unit 632 performs energization via the connectors 604 and 604 connected to the electrodes 801 and 801 of the electrofusion joint 800 according to the set energization control parameters.
The construction result information processing unit 633 performs the electric fusion according to the current fusion in response to completion of one energization by the conduction control unit 632 (completion of the fusion work of one electric fusion joint 800). Construction result information indicating an operation result such as an energized state of the device 600 is created. Further, the construction result information processing unit 633 transmits the created construction result information to the construction management server 200.

  The storage unit 605 stores various information corresponding to the electric fusion device 600. The display unit 606 performs a predetermined display under the control of the control unit 603. An operation unit 607 collectively shows various operators in the electric fusion device 600.

An example of a processing procedure executed by the installer terminal 300 and the online test server 100 in connection with the issuance of the certificate 500 will be described with reference to the flowchart of FIG.
Step S101: The contractor WK who intends to receive the issuance of the certificate 500 first registers the basic construction information before receiving the practical skill training.
The builder WK causes the builder terminal 300 to access a construction basic information registration website provided by the online test server 100, and causes the builder terminal 300 to display a construction basic information registration web page. The website of the basic construction information registration may be provided by a web server function corresponding to the test execution unit 121 of the online test server 100.
The installer WK inputs information for each item of the basic construction information to the web page for basic construction information registration, and performs an operation of instructing transmission of the basic installer information including the input information item. In response to this operation, the installer terminal 300 transmits the input installer basic information to the online test server 100.

Step S201: In the online test server 100, the test execution part 121 which provides the website of the basic construction information registration receives the basic construction information transmitted from the construction terminal 300 in step S101.
Step S202: The test execution unit 121 causes the construction basic information storage unit 131 to store the construction basic information received in step S201.

FIG. 6A shows an example of the installer basic information corresponding to one installer WK. The builder basic information in the drawing includes a builder identifier, a name, a company name, and an area for storing face photograph data.
The area of the installer identifier stores an installer identifier that uniquely identifies the corresponding installer WK. The builder identifier may be assigned by the test execution unit 121 at the timing when the builder basic information is stored in the builder basic information storage unit 131, for example.
The name field stores the name of the corresponding installer WK.
The company name area stores the company name of the contractor CT to which the corresponding contractor WK works (belongs).
The face photo data area stores the face photo data of the corresponding installer WK.
The name, company name, and face photograph data are items that the constructor WK inputs to the constructor basic information registration web page.

  The registration of the installer's basic information by the installer WK may be treated as an application for a course of fusion work (practical training, online course) for receiving issuance of a certificate.

The description returns to FIG.
Step S111: The installer WK who has completed the practical skill course and obtained the login password for the online course needs to take an online course (online course and online test) in order to obtain the certificate 500. Therefore, the installer WK accesses the online site login site of the online test server 100 using the installer terminal 300.
Then, the installer WK inputs the information of the predetermined items in the registered installer basic information as a user account, inputs the obtained login password, and performs a login operation.
In response to such a login operation, the installer terminal 300 transmits a login request to the online test server 100. Authentication processing is performed in the online test server 100 in response to the login request. When the authentication is established, login is performed and an online course is performed. After the login, first, an online course to be taken by the installer WK is performed as an online course.

  Step S112: After logging in, the installer WK browses the web page of the online course displayed on the installer terminal 300, and takes an online course while performing operations as necessary. The installer terminal 300 processes the web page of the online course transmitted from the online test server 100 in accordance with the operation of the learner (constructor WK) (study correspondence processing). As a result, the online course proceeds.

  Step S113: When the online course is taken, the online test server 100 performs an online test for determining whether the certificate 500 can be issued. That is, the online test server 100 provides the web content of the online test. The installer terminal 300 displays the web content of the online test as the test response processing. The installer WK performs an operation of answering the questions set in the displayed online test web content. The installer terminal 300 processes the web page of the online test transmitted from the online test server 100 in accordance with the operation of the student (test taking process). At this time, the installer terminal 300 transmits information indicating the answer to the online test server 100 in accordance with the answer operation by the student.

  Step S114: When the online test is completed, the online test server 100 makes a pass / fail judgment based on the answer transmitted from the installer terminal 300. As a result of the pass / fail judgment, when it is determined that the test is successful, the online test server 100 transmits a certificate issuance notification to the installer terminal 300. The certificate issuance notification is a notification that the certificate 500 is issued because the installer WK has passed the online test. The installer terminal 300 receives the certificate issuance notification. The installer WK can know that the certificate 500 will be issued to himself by checking the certificate issuance notification received at the installer terminal 300.

  Step S211: In the online test server 100, the test execution section 121 executes an authentication process in response to the login request transmitted in step S111.

  Step S212: When the authentication is established by the authentication process, the test execution unit 121 permits the login, and performs the online training for the installer terminal 300. That is, the test execution unit 121 transmits the web contents of the online course to the installer terminal 300.

  Step S213: When the on-line course is taken, the test execution section 121 then performs an on-line test. That is, the test execution unit 121 transmits the web content of the online test to the installer terminal 300. Further, the test execution unit 121 receives the information on the answer transmitted from the installer terminal 300 and stores the information on the received answer.

  Step S214: When the online test is completed, the certificate issuing unit 122 performs a pass / fail judgment based on the answer obtained in the current test.

Step S215: If the result of the pass / fail judgment in step S214 is determined to be a pass, it is determined that the certificate 500 may be issued. Therefore, the certificate issuing unit 122 creates certificate information that is information corresponding to the certificate 500 to be issued.
Step S216: The certificate issuing unit 122 causes the certificate information storage unit 132 to store the certificate information created in step S215. The certificate issuing unit 122 that performs the process of step S216 is an example of a test result management unit.
Step S217: The certificate issuing unit 122 transmits a certificate issuing notification to the installer terminal 300.
As described above, the certificate issuing unit 122 executes a process according to the issuance of the certificate 500.

FIG. 6B illustrates an example of the certificate information stored in the certificate information storage unit 132. The certificate information shown in FIG. 3 includes fields of a constructor identifier, a name, a company name, face photograph data, a certificate identifier, a construction guidance date, a construction supervisor, an examination date, and a result. Such certification information includes information as a test result, such as an examination date and a test result.
The area of the installer identifier stores an installer identifier that uniquely identifies the corresponding installer WK.
The name field stores the name of the corresponding installer WK.
The company name field stores the company name of a company as a contractor CT in which the corresponding contractor WK works.
The above-mentioned installer identifier, name, company name, and face photograph data are information acquired from the installer basic information of the corresponding installer WK.

The certificate identifier area stores a certificate identifier that uniquely identifies the corresponding certificate 500. The certificate identifier may be generated by the certificate issuing unit 122.
The field of the construction guidance date stores the construction guidance date. The construction guidance date is, for example, the date on which the constructor WK attended the practical skill training in order to obtain the corresponding certificate 500.
The construction instructor area stores information on the construction instructor. The construction instructor is, for example, a person who instructed the constructor WK in the practical skill training attended by the constructor WK to obtain the corresponding certificate 500.
The information on the construction instructing date and the construction instructor may be acquired from, for example, information on the implementation of the practical skill course stored in the storage unit 103.
The examination date field stores the date (examination date) when the installer WK took the online test.
The result area stores the results of the online test taken by the installer WK.
The certificate 500 issued based on such certificate information corresponds to the contractor WK specified by, for example, a contractor identifier, a name, a company name, and face photograph data.

With reference to the flowchart of FIG. 7, an example of a processing procedure executed by the construction management server 200 in connection with the creation of the location unit construction information will be described.
Step S301: In the construction management server 200, the construction information creating unit 221 is waiting for the property information to be transmitted.
The contractor CT registers in the construction management server 200 property information on a property using the electric fusion joint 800 that requires the constructor WK to issue the certificate 500 and perform the fusion work. Therefore, the contractor CT accesses the property information registration website of the construction management server 200 using the contractor terminal 400, and then performs an operation for registering property information on the contractor terminal 400. Thereby, the contractor terminal 400 transmits the property information for registration to the construction management server 200.

  Step S302: When the property information transmitted as described above is received, the construction information creating unit 221 stores the received property information in the property information storage unit 231. In this way, the property information storage unit 231 stores the property information for each of one or more properties.

FIG. 8A shows an example of property information stored in the property information storage unit 231 corresponding to one property.
The property information in the figure includes a property name, prime contractor information, subcontractor information, construction company information, construction management standard information, and a construction drawing area.
The property name area stores the property name of the corresponding property.
The primary contractor information area stores predetermined information (primary contractor information) about the primary contractor for the corresponding property.
The subcontractor information area stores predetermined information (subcontractor information) on the corresponding property.
The area of the construction company information stores predetermined information (construction company information) on the construction company to which the installer WK performing the fusion work of the electric fusion joint 800 belongs at the construction site FL of the corresponding property.
The area of construction management standard information stores construction management standard information for the corresponding property. The construction management criterion information indicates items required as criteria when constructing a corresponding property. The items of the construction management reference information include a procedure required in the fusion work of the electric fusion joint 800, work contents for each procedure, and the like. The online course and the online test provided by the online test server 100 are created with the goal of allowing the installer WK to satisfy the items required by the items related to the welding operation of the electric fusion joint 800 in the construction management standard information. .
The construction drawing area stores the construction drawing data for the corresponding property.

Referring back to FIG. 7, an example of a processing procedure executed by the construction information creating unit 221 regarding creation of location-based construction information will be described.
Step S311: Then, the construction information creating unit 221 acquires the property information corresponding to the designated property from the property information storage unit 231 in response to the generation trigger of the creation of the location-based construction information for the designated property.
The creation trigger of the place-based construction information may be generated, for example, according to a preset schedule of the place-based construction information creation for each property, or may be generated in response to an operation of instructing the creation of the place-based construction information by the operator. You may.

Step S312: The construction information creation unit 221 creates location-based construction information using the property information acquired in step S311.
In creating the location-based construction information, the construction information creating unit 221 assigns a joint identifier to the construction drawing data stored in the property information for each place (construction place) to which the electric fusion joint 800 is attached. Go. Thereby, a joint identifier is associated with each construction site of the electric fusion joint 800 in the property. The construction information creation unit 221 creates location-based construction information so as to correspond to each joint identifier (that is, construction location).

  Step S313: The construction information creating unit 221 causes the location unit construction information storage unit 232 to store the location unit construction information created in step S312.

FIG. 8B shows an example of location-based construction information created for one property. The location-based construction information in the drawing includes areas of a joint identifier, a property name, original contractor information, subcontractor information, construction company information, and construction management reference information.
The joint identifier area stores the joint identifier assigned to the corresponding construction site. The areas of the property name, prime contractor information, subcontractor information, construction company information, and construction management standard information are the prime contractor information, subcontractor information, construction company information, and construction management stored in the corresponding property information, respectively. Stores reference information. In addition, regarding the area of the construction management reference information, among the construction management reference information stored in the property information, information on a corresponding construction location may be stored.

  With reference to the flowchart of FIG. 9, an example of a processing procedure executed by the electric fusion device 600 and the construction management server 200 in response to the fusion work performed at the construction site FL will be described. The processing in the figure corresponds to the case where the fusion work of one electric fusion joint 800 is performed in one construction place.

First, an example of a processing procedure executed by the electric fusion device 600 will be described.
Step S401: When performing the welding operation of the electric fusion joint 800 at the construction site FL, the installer WK firstly inserts the barcode 510 of the certificate 500 owned by the operator WK into the barcode reader 602 of the electric fusion device 600. Perform the operation to read. By reading the barcode 510, the electrofusion device 600 acquires the barcode information recorded as the barcode 510. The barcode information of the barcode 510 includes a certificate identifier among the information stored in the certificate information (FIG. 6B). The operation restriction control unit 631 of the electric fusion device 600 acquires a certification identifier from the barcode information of the acquired barcode 510.

  Step S <b> 402: Also, the installer WK performs an operation of reading the barcode 910 of the corresponding construction site from the construction sheet 900 by the barcode reader 602. Thereby, the electrofusion device 600 acquires the barcode information recorded as the barcode 910. The barcode information of the barcode 910 includes the property name and the joint identifier among the information stored in the location unit construction information (FIG. 8B) of the corresponding construction place. The operation restriction control unit 631 acquires the property name and the joint identifier from the barcode information of the acquired barcode 910.

Step S403: Next, the operation restriction control unit 631 transmits a construction qualification confirmation request to the construction management server 200. The construction qualification confirmation request is a command for requesting whether or not the builder WK has a construction qualification to perform the welding operation of the electric fusion joint 800 at the current construction location.
The construction qualification request includes the certificate identifier acquired in step S401, the property name and the joint identifier acquired in step S402.

  Step S404: In response to the transmission of the construction qualification confirmation request in step S403, the construction management server 200 transmits a construction qualification determination notification indicating a determination result as to whether or not there is construction qualification. Electric fusion device 600 receives the transmitted construction qualification determination notification.

  Step S405: When the construction qualification determination notification is received, the operation restriction control unit 631 determines whether or not the received construction qualification confirmation notification indicates that there is construction qualification.

Step S406: If it is determined that the construction qualification notification indicates construction qualification, the installer WK can proceed with the subsequent work procedure. Therefore, the installer WK performs an operation of causing the barcode reader 602 to read the barcode 810 provided on the electric fusion joint 800 to be installed. In the barcode 810, information (joint accompanying information) on the electric fusion joint 800 is recorded. The operation restriction control unit 631 acquires the joint incidental information recorded as the barcode 810 in response to the barcode 810 being read.
If it is determined that the construction qualification notification indicates construction qualification, it is confirmed that the electric fusion device 600 has the construction qualification together with the process of step S406. The notification of the fact may be made by display or sound.

FIG. 10 shows an example of joint incidental information. The joint incidental information shown in the figure includes areas of joint type, size, fusion time, raw material code, and manufacturer name.
The joint type area stores joint type information indicating the type (may be a type name, a model number, and the like) of the corresponding electric fusion joint 800.
The size area indicates the size of the corresponding electrofusion joint 800.
The raw material code area stores raw material code information indicating raw materials used for the corresponding electric fusion joint 800.
The maker name area stores the name of the maker that manufactured the corresponding electric fusion joint 800.

The description returns to FIG.
Step S407: Upon acquiring the joint incidental information, the operation restriction control unit 631 transmits a condition conformance determination request to the construction management server 200. The condition conformance determination request is that the specification of the electro-fusion joint 800 targeted for the current construction work conforms to the joint conditions (joint conditions) required for the electro-fusion joint to be installed at the current construction site. This is a command requesting a determination as to whether or not there is The condition conformance determination request includes the joint incidental information acquired in step S406.

  Step S408: In response to the transmission of the condition conformance determination request in step S407, the construction management server 200 transmits a condition conformity determination notification indicating a determination result as to whether or not the fitting condition has been satisfied. Electrofusion apparatus 600 receives the transmitted condition conformity determination notification.

  Step S409: When the condition conformity determination notification is received, the operation restriction control unit 631 determines whether or not the electric fusion joint 800 as the construction target conforms to the joint condition based on the received condition conformity determination notification. judge.

Step S410: If the determination result indicates that the joint condition is satisfied, the installer WK has the construction qualification, and the electro-fused joint 800 used for the fusion work has the joint condition. Fit. In this case, fusion work of the electric fusion joint 800 at the current construction site is permitted. In this case, the operation restriction control unit 631 does not impose any restriction on the operation of the electric fusion device 600, particularly regarding the fusion operation.
When the result of the determination that the joint condition is satisfied is indicated, the notification that the fusing operation is possible may be made by display or sound.
In this case, the installer WK can further proceed with the operation procedure relating to the fusion work. The installer WK performs an operation related to energization for fusing the electric fusion joint 800 with the electric fusion device 600. In response to the operation related to the energization being performed, the energization control unit 632 in the electric fusion device 600 executes the energization control.

  Step S411: When the energization of the electric fusion joint 800 by the electric fusion device 600 is completed, the construction result information processing unit 633 creates construction result information including information indicating the result of the energization control at the current construction location. The construction result information processing unit 633 transmits the created construction result information to the construction management server 200.

FIG. 11 shows an example of the construction result information. The construction result information in FIG. 3 includes a property name, a joint identifier, a constructor identifier, and an area of energization result information.
The property name area stores the corresponding property name. The property name stored in the property name area is the property name acquired in step S402.
The joint identifier area stores a joint identifier associated with the construction site where the current fusion operation was performed. The property name stored in the joint identifier area is the joint identifier acquired in step S402.
The area of the installer identifier stores an installer identifier indicating the installer WK that has performed the fusion work this time. The installer identifier stored in the installer identifier area is the installer identifier included in the barcode information of the barcode 510 of the certificate 500 read corresponding to step S401.
The area of the energization result information stores energization result information indicating a result of the energization control in the current fusion operation. The energization result information includes the voltage at the time of energization, the energization time, and the like.

The description returns to FIG.
Step S412: On the other hand, if it is determined in step S405 that there is no qualification for construction, or if it is determined in step S409 that the joint conditions are not met, the electric fusion joint at the current construction location 800 fusing operations are not allowed. Therefore, the operation restriction control unit 631 sets the operation prohibition mode so that the operation related to the subsequent fusion work is not performed by the electric fusion joint 800. As the setting of the operation prohibition mode, for example, an operation related to the fusion work may be disabled.

Next, an example of a processing procedure executed by the construction management server 200 will be described with reference to FIG.
Step S501: The construction management server 200 receives the construction qualification confirmation request transmitted from the electric fusion device 600 in step S403.

Step S502: In response to receiving the construction qualification confirmation request, the qualification determination unit 222 of the construction management server 200 acquires the certification information that stores the same certification identifier included in the received construction qualification confirmation request.
Upon acquiring the certificate information, the qualification determination unit 222 transmits a certificate information request including a certificate identifier included in the received construction qualification confirmation request to the online test server 100. The online test server 100 reads the certificate information that stores the same certificate identifier included in the received certificate information request from the certificate information storage unit 132, and transmits the read certificate information to the construction management server 200. I do. The qualification determination unit 222 acquires the certificate information transmitted from the online test server 100.

  Step S503: The qualification determination unit 222 acquires from the location-based construction information storage unit 232 the location-based construction information that stores the same combination of the property name and the joint identifier that is included in the received construction qualification confirmation request. I do.

Step S504: The qualification determination unit 222 makes a determination as to whether the builder WK has the qualification for construction (construction qualification determination). In determining the construction qualification, the qualification determination unit 222 uses the certificate information acquired in step S502 and the location unit construction information acquired in step S503. For example, the qualification determination unit 222 determines whether the content of the predetermined information indicated in the certificate information satisfies the standard indicated by the construction management standard information in the place-based construction information.
As an example, the construction management standard information includes construction qualification information (construction qualification information) necessary for the corresponding fusion work. The construction qualification information may indicate, for example, a range of a certificate identifier corresponding to the construction qualification. The qualification determination unit 222 determines whether the construction qualification indicated by the certification information is included in the range of the certification identifier indicated by the construction qualification information stored in the construction management standard information, thereby determining the construction qualification. It can be determined whether or not it has.

According to such a construction qualification determination, the construction qualification can be appropriately given only to the installer WK who has passed the online test corresponding to the fusion work of the electric fusion joint 800 to be worked.
Further, for example, even if the same electric fusion joint 800 is used, the procedure required in the fusion work and the work content under a certain procedure may be different depending on the difference between the prime contractor and the property. is there. In this case, for example, the installer WK has learned the procedure of the fusion work required for one electric fusion joint 800 corresponding to a certain prime contractor or property, but has acquired other prime contractors. In some cases, the procedure of the fusion work required for the contractor or the property has not been learned. In this case, as for the installer WK, the fusion work needs to be prohibited in another prime contractor or another property. In the present embodiment, in order to cope with such a case, even if the same electric fusion joint 800 is used, an online course corresponding to each required fusion work procedure is carried out, thereby coping with the property at the construction site FL. Then, only those who have acquired the necessary procedure of the fusion work can be appropriately permitted to perform the fusion work.
Further, even with the same electric fusion joint 800, the procedure of the fusion work required by the installer WK may be revised, for example, due to improvement of the fusion work at one time. In this case, the welding work of the installer WK who has only learned the procedure of the past welding work needs to be prohibited. In the present embodiment, by implementing an online course corresponding to the improved fusion work in response to such a case, only those who have learned the procedure of the improved fusion work are appropriately fused. Work can be allowed.

  Step S505: The qualification determination unit 222 transmits a construction qualification determination notification for notifying whether or not the user has the construction qualification to the electrofusion apparatus 600 according to the result of the construction qualification determination in step S504.

Step S511: Further, the qualification determination unit 222 receives the condition conformance determination request transmitted from the electric fusion device 600 in step S407.
Step S512: The qualification determination unit 222 determines, in response to the reception of the condition conformance determination request, whether the electric fusion joint 800 targeted for construction conforms to the joint conditions of the current construction location (condition conformance). Judgment). The qualification determination unit 222 determines, in the conformity determination, the joint specifications and the like indicated by the joint incidental information included in the condition conformance determination request, according to the construction management standard information included in the location unit construction information acquired in step S503. It is determined whether or not the joint conditions (manufacturer, type, model number, date of manufacture, etc.) of the joint are satisfied.
Step S513: The qualification determination unit 222 transmits a condition conformity determination notification for notifying whether or not the joint condition is satisfied, to the electrofusion apparatus 600 according to the result of the condition conformance determination in step S512.
As described above, the qualification determination unit 222 of the present embodiment determines whether the electric fusion joint 800 to be constructed conforms not only to the construction qualification for the installer WK, but also to the joint conditions required at the construction place. Is also determined.

Step S521: In the construction management server 200, the construction history management unit 223 receives the construction result information transmitted from the electric fusion device 600 in step S411.
Step S522: The construction history management unit 223 causes the construction history information storage unit 233 to store the received construction result information as construction history information.

In this way, the construction history information storage unit 233 accumulates the construction history information according to the fact that the electric fusion joint 800 has been fused for each construction site for each property.
In the present embodiment, by storing such construction history information, it is possible to efficiently manage the electric fusion joint 800 in the property after construction. For example, depending on the construction history information, each of the electric fusion joints 800 subjected to the electric fusion for each construction place can be managed so as to be individually identifiable in association with a joint identifier. Further, depending on the construction history information, it is possible to specify the installer WK who has performed the fusion work of the electric fusion joint 800 for each construction place, and the result of the energization control in the fusion work. Thereby, depending on the use of the construction history information of the present embodiment, if any trouble occurs in the electro-fusion joint 800 where the electro-fusion is performed, the constructor WK performing the fusion work or the energized state And the like are accurately grasped, so that the cause can be easily identified.

In the above embodiment, an example is described in which the test is performed in an online environment in which the online test server 100 and the installer terminal 300 are communicably connected.
However, the test may be performed by, for example, the installer terminal 300 in an offline state that is not connected to the online test server 100. In this case, the information on the test results (for example, results, test date, etc.) is temporarily stored in the installer terminal 300, for example, and then the installer WK connects the installer terminal 300 and the online test server 100, for example. A connection may be made so as to be transmitted to the online test server 100. In this case, the certificate issuing unit 122 (test result management unit) of the online test server 100 creates certificate information including the transmitted test result, and stores the created certificate information in the certificate information storage unit 132. You may let me.
Alternatively, the test may be performed, for example, in a form in which the installer WK fills in the answer sheet with his / her own handwriting. In this case, for example, the installer WK mails the answer sheet to a predetermined mailing address, converts the answer written in the answer sheet mailed at the mailing address into data, and outputs the digitized answer to the online test server 100. May be input. Alternatively, the answer written in the answer sheet at the mailing address may be graded, and the grade as the scoring result may be input to the online test server 100. In this case, by setting the answer sheet in a format that can be read as data such as a mark sheet method, the computer apparatus can execute the above-described procedure at the mail destination. In this case, the certificate issuing unit 122 (test result management unit) of the online test server 100 creates certificate information including a test result in which the input answer, grade, and the like are reflected, and transmits the created certificate information. It may be stored in the certificate information storage unit 132.

  Note that a program for realizing the functions of the above-described online test server 100, construction management server 200, installer terminal 300, installer terminal 400, and electric fusion device 600 is recorded on a computer-readable recording medium. Alternatively, the processing as each of the above-described devices may be performed by causing a computer system to read the program recorded on the recording medium and executing the program. Here, "to make the computer system read and execute the program recorded on the recording medium" includes installing the program in the computer system. The “computer system” here includes an OS and hardware such as peripheral devices. Further, the “computer system” may include a plurality of computer devices connected via a network including a communication line such as the Internet, a WAN, a LAN, and a dedicated line. The “computer-readable recording medium” refers to a portable medium such as a flexible disk, a magneto-optical disk, a ROM, and a CD-ROM, and a storage device such as a hard disk built in a computer system. As described above, the recording medium storing the program may be a non-transitory recording medium such as a CD-ROM. The recording medium also includes an internal or external recording medium accessible from the distribution server for distributing the program. The code of the program stored in the recording medium of the distribution server may be different from the code of the program in a format executable by the terminal device. That is, any format can be stored in the distribution server as long as it can be downloaded from the distribution server and installed in a form executable by the terminal device. The program may be divided into a plurality of programs, downloaded at different timings, and then combined by the terminal device, or the distribution server that distributes each of the divided programs may be different. Further, the “computer-readable recording medium” holds a program for a certain period of time, such as a volatile memory (RAM) in a computer system serving as a server or a client when the program is transmitted via a network. Shall be included. Further, the program may be for realizing a part of the functions described above. Furthermore, what can implement | achieve the function mentioned above in combination with the program already recorded on the computer system, and what is called a difference file (difference program) may be sufficient.

Reference Signs List 100 online test server, 101 communication unit, 102 control unit, 103 storage unit, 121 test execution unit, 122 certificate issuing unit, 131 installer basic information storage unit, 132 certificate information storage unit, 200 construction management server, 201 communication Section, 202 control section, 203 storage section, 221 construction information creation section, 222 qualification determination section, 223 construction history management section, 231 property information storage section, 232 location unit construction information storage section, 233 construction history information storage section, 300 construction Terminal, 400 contractor terminal, 500 certificate, 510 barcode, 600 electric fusion device, 601 communication unit, 602 barcode reader, 603 control unit, 604 connector, 605 storage unit, 606 display unit, 607 operation unit, 631 operation restriction control unit, 632 energization control unit, 633 construction result information Management unit, 700 pipe, 800 electric fusion fittings, 801 electrode, 810 bar code, 900 construction sheet, 910 Bar Code

Claims (10)

A test result management unit that stores test results for each installer in a storage unit;
A certificate issuing unit that executes a process corresponding to issuance of a certificate based on the test result, corresponding to the installer. The construction management system according to claim 1, further comprising a test execution unit configured to perform a test for a constructor operating the installer terminal by communicating with the installer terminal, and obtain the test result. The certificate issuance unit is required for the predetermined construction work in order to determine whether the constructor is qualified to perform the predetermined construction work based on the test results obtained by the test execution unit. The construction management system according to claim 2, wherein it is determined whether or not the certificate can be issued in association with construction qualification information to be collated with construction management reference information indicating a standard. 4. A construction information creation unit that creates location unit construction information including a place identifier associated with a place where the predetermined construction work is performed in the property to be constructed and construction management reference information corresponding to the place. The construction management system described in 1. The construction management system according to claim 4, wherein the location identifier is an identifier associated with a predetermined material provided by the construction work at the corresponding place. The construction qualification information read by the construction apparatus used for the predetermined construction work and the construction qualification information based on the result of collating the construction management reference information, the installer corresponding to the construction qualification information performs the predetermined construction work The construction management system according to any one of claims 3 to 5, further comprising a qualification determination unit that determines whether or not the user has qualification. The construction management system according to claim 6, further comprising an operation restriction control unit that controls the operation of the construction apparatus to be restricted when the qualification determination unit determines that the qualification is not possessed. The construction management system according to claim 6, wherein the construction device is a device that conducts electricity for fusing the electric fusion joint to the fusion target. For a construction result performed using the construction apparatus, a construction history that manages construction history information in which a constructor is associated with a place identifier based on a place where the predetermined construction work is performed in a property to be constructed. The construction management system according to any one of claims 6 to 8, further comprising a management unit. A test result management step of storing test results for each installer in the storage unit;
A certificate issuance step of executing a process corresponding to the issuance of a certificate based on the test result, corresponding to the installer.

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