JP5008309B2 - Test system for concrete specimen and test method thereof - Google Patents

Description

  The present invention relates to a concrete specimen test system applicable to a concrete specimen strength measurement system and a test method therefor.

  Specifically, it has a test means that compares the individual information of the label for individual identification and the label management information, and tests the concrete specimen based on the comparison result, so that the individual information of the concrete specimen can be automatically identified. At the same time, only concrete specimens for which the comparison results are met can be tested.

  Conventionally, when testing concrete, the tester visually checks the identification number, creation date, type, etc. handwritten with oil-based magic directly on the concrete specimen and selects the concrete specimen to be tested for testing. I went. As for the measured intensity data, a method in which the tester writes the intensity data on a data sheet or the like and then inputs the intensity data manually into a personal computer to analyze the intensity data.

  In relation to such a conventional example, Patent Document 1 discloses a concrete test piece created for a compression test. In this concrete test piece, a name label having an entry part in which the owner's autograph is entered is embedded inside the concrete member so that the autograph can be seen. As a result, after the test piece is completed, it is possible to reduce the trouble of manually writing the name of the site on the concrete test piece and to reduce the possibility of human error that occurs during the entry.

Japanese Patent Laid-Open No. 2004-61266 (page 3, FIG. 1)

  By the way, according to the test method for a concrete specimen according to the conventional example, as shown in Patent Document 1, individual information is directly written on the concrete specimen by hand, or a name label on which the owner's signature is written is provided on the concrete specimen. Attached to the specimen. For this reason, the specimen may be mistakenly tested as it is.

  Therefore, the present invention solves the problems related to the conventional example, and enables individual identification of concrete specimens to be automatically identified, and can test only concrete specimens that match the comparison results. It is an object of the present invention to provide a test system for a concrete specimen and a test method thereof.

In order to solve the above-described problems, the test system for a concrete specimen according to claim 1 is a system for testing a concrete specimen, and includes an identification number that can be visually confirmed, a creation date, concrete composition information, a building Information including the room name / constructor and the scheduled test date is individual information, and includes the identification number, creation date, concrete composition information, building name / constructor, scheduled test date, test execution date, and measurement information. when was the label management information, the said individual information of the concrete specimen by a bar-coded to create a label for identification, and the creation means for creating the label management information based on the individual information, the creation unit reading means for reading the bar code of the label affixed to a predetermined position of the concrete specimen is prepared by, read by the reading means The analyzes the bar code is converted into the individual information, it compares the individual information after the conversion and said label management information, further comprising a testing means for testing the concrete specimen on the basis of the comparison result It is a feature.

According to the concrete specimen test system of the present invention, the concrete specimen is tested, and the creating means creates a label for individual identification by barcode-coding the individual information of the concrete specimen , and Label management information is created based on the individual information . A reading means reads the barcode of the label affixed on the predetermined position of the concrete specimen. The test means analyzes the barcode read by the reading means and converts it into individual information , compares the converted individual information with the label management information, and tests the concrete specimen based on the comparison result. For example, the test means compares the date of the scheduled test date item of the label management information with the date of the test day, and searches for the identification number of the label management information that matches the date of the scheduled test date item with the date of the test day. If the identification number of the individual information and the identification number of the label management information match after the comparison, the identification number of the extracted concrete specimen is compared with the identification number of the individual information of the read concrete specimen. Test the specimen.

  Thereby, the individual information of the concrete specimen can be automatically identified, and only the concrete specimen that matches the comparison result can be tested.

In order to solve the above-mentioned problem, the test method for a concrete specimen according to claim 5 is a method for testing a concrete specimen, in which an identification number, a creation date, concrete composition information, a building structure, which can be visually confirmed, are constructed. Information including the room name / constructor and the scheduled test date is individual information, and includes the identification number, creation date, concrete composition information, building name / constructor, scheduled test date, test execution date, and measurement information. when was the label management information, the said individual information of the concrete specimen by a bar-coded to create a label for identification, and to create a label management information on the basis of the individual information, the bar code created the label affixed to a predetermined position of the concrete specimen containing, read the said bar code of the label affixed to the front of the test of the concrete specimen Taken compares the read the individual information and the said label management information, is characterized in that testing the concrete specimen based on the comparison result.

  According to the test method for a concrete specimen according to the present invention, when testing a concrete specimen, the individual information of the concrete specimen can be automatically identified, and the concrete specimen whose comparison result is matched. Can only be tested. As a result, it is possible to reliably capture intensity information and to improve the efficiency of information analysis.

According to the test system and test method for concrete specimens according to the present invention, the barcode read from the visible individual identification label affixed to the concrete specimen is analyzed and converted into individual information. A test means for comparing the individual information and the label management information later and testing the concrete specimen based on the comparison result is provided.

With this configuration, the individual information of the concrete specimen can be automatically identified, and only the concrete specimen that matches the comparison result can be tested. Moreover, the identification number printed on the label sticker affixed to the concrete specimen can be visually confirmed. As a result, it is possible to reliably capture intensity information and to improve the efficiency of information analysis.

  Next, a concrete specimen test system and a test method thereof according to the present invention will be described with reference to the drawings.

  FIG. 1 is a conceptual diagram showing a configuration example of a concrete specimen strength measurement system 100 as an embodiment according to the present invention. A concrete specimen strength measurement system 100 shown in FIG. 1 is an example of a concrete specimen test system, and includes a terminal device 1, a strength tester 2, a barcode reader 3, a printer 8, a first transmission cable 11, and The second transmission cable 12 is used. Further, a concrete specimen 4 is installed in the strength tester 2.

  The concrete specimen 4 is a specimen for measuring the strength of concrete. The concrete specimen 4 has a cylindrical shape, and has a diameter of about 15 cm to 30 cm and a height of about 20 cm to 40 cm. For example, ready-mixed concrete used when constructing a nuclear power plant is divided according to use location and concrete composition ratio, filled in a formwork in advance, and hardened under water for a certain period. After a certain period, the hardened concrete specimen 4 is compressed by the strength tester 2 and the strength is measured. This makes it possible to verify the strength of concrete such as the structural walls of nuclear power plants.

  The terminal device 1 constitutes an example of a creation unit and a test unit, and is connected to the strength tester 2 via the transmission cable 12 and is connected to the barcode reader 3 via the transmission cable 11. As the terminal device 1, a notebook computer is used. The terminal device 1 includes a monitor 5 and a plurality of USB (Universal Serial Bus) interfaces (not shown). A keyboard 6 and a mouse 7 are connected to each USB interface. As the keyboard 6, for example, a 106-type keyboard 6 provided with a key top for use in kana-kanji conversion or the like is used. As the mouse 7, for example, an optical mouse is used in which the optical sensor detects movement by intermittently scanning the ground plane.

  The terminal device 1 includes a label seal 22 that constitutes an example of an individual identification label based on individual data D1 that constitutes an example of individual information of the concrete specimen 4, and a label management data list that constitutes an example of label management information 21 is created. The terminal device 1 compares the individual data D1 read by the barcode reader 3 with the label management data list 21, and tests the concrete specimen 4 based on the comparison result. As a result, the individual data D1 of the concrete specimen 4 can be automatically identified, and only the concrete specimen 4 that matches the comparison result can be tested.

  The individual data D1 includes an identification number, a creation date, concrete composition information, a building name / constructor, and a scheduled test date. As shown in FIG. 3, the label management data list 21 includes an identification number, a creation date, concrete composition information, a building name / constructor, a scheduled test date, a test execution date, and measurement data. The label seal 22 is water-resistant, and the label seal 22 is printed with water-resistant characters on which the identification number, creation date, building name / constructor, scheduled test date, and barcode that encodes the identification number are printed. The

  For example, the tester uses the keyboard 6 and the mouse 7 provided in the terminal device 1 on the date of creation of the concrete specimen 4, and the identification number that is the individual data D1 of the concrete specimen 4 in the label management data list 21. Register creation date, concrete composition information, building name / constructor, and scheduled test date. The identification number may be specified by the examiner or automatically set.

  The printer 8 is a laser printer 8 and is connected to the terminal device 1. Based on the individual data D1 output from the terminal device 1, the printer 8 prints on the label seal 22 a barcode that encodes the identification number, creation date, building name / constructor, scheduled test date, and identification number. To do. Water-resistant ink is used for printed characters.

  When performing a strength test of the concrete specimen 4, the tester reads the barcode by holding the label seal 22 attached to a predetermined position of the concrete specimen 4 over the barcode reader 3.

  The bar code reader 3 is an example of a reading unit, and is connected to the terminal device 1 via the transmission cable 11. The bar code reader 3 includes a light source and an optical sensor (not shown), and is a bar that is encoded by the identification number of the individual data D1 of the label seal 22 created by the terminal device 1 and attached to a predetermined position of the concrete specimen 4. The code is read optically before testing the concrete specimen 4. The bar and space pattern of the read barcode is analyzed and converted into an identification number. The converted identification number is output from the barcode reader 3 to the terminal device 1 via the transmission cable 11.

  The terminal device 1 compares the date of the scheduled test date item in the label management data list 21 with the date of the test day, and the identification number of the label management data list 21 in which the date of the scheduled test date item matches the date of the test day. The extracted identification number is compared with the identification number of the read individual data D1 of the concrete specimen 4, and after the comparison, the identification number of the individual data D1 and the identification of the label management data list 21 are compared. If the numbers match, the concrete specimen 4 is tested. If the comparison results do not match, the concrete specimen 4 is not tested. As a result, the individual data D1 of the concrete specimen 4 can be automatically identified, and only the concrete specimen 4 that matches the comparison result can be tested.

  The strength tester 2 is an example of strength measuring means, and includes a hydraulic jack 9 and a meter 10. The strength tester 2 compresses the concrete specimen 4 with a hydraulic jack 9, measures the strength of the concrete specimen 4, and displays it on the meter 10.

  In addition, the strength tester 2 outputs measurement data D2 from the strength tester 2 to the terminal device 1 via the transmission cable 12 which is an example of a communication unit that connects the strength tester 2 and the terminal device 1. The terminal device 1 records the output measurement data D2 and the label management data list 21 in association with each other. Thereby, inconsistency between the concrete specimen 4 after the test and the measurement data D2 can be eliminated. Therefore, the measurement data D2 can be managed efficiently.

  When the comparison result does not match, the terminal device 1 outputs an alarm sound from a speaker (not shown). Thereby, the tester can immediately notice that the test date of the concrete specimen 4 to be tested is wrong.

  FIG. 2 is a block diagram illustrating a configuration example of the control unit 20 of the terminal device 1. The control unit 20 illustrated in FIG. 2 includes a CPU 13, a RAM 14, a hard disk 15, and a CPU bus 16.

  The CPU 13 is connected to the CPU bus 16 and the drive clock of the CPU 13 is about 700 MHz. The CPU 13 inputs the individual data D1 from the barcode reader 3 via the transmission cable 11. Further, the measurement data D2 is input from the strength tester 2 through the transmission cable 12.

  The CPU 13 compares the date of the scheduled test date item in the label management data list 21 with the date of the test day, and searches for the identification number of the label management data list 21 in which the date of the scheduled test date item matches the date of the test day. The extracted identification number is compared with the identification number of the individual data D1 input from the barcode reader 3, and after the comparison, the identification number of the individual data D1 and the identification number of the label management data list 21 are If they match, the strength tester 2 is controlled to test the concrete specimen 4. If the comparison results do not match, the strength tester 2 is controlled so that the concrete specimen 4 is not tested. As a result, the individual data D1 of the concrete specimen 4 can be automatically identified, and only the concrete specimen 4 that matches the comparison result can be tested.

  The hard disk 15 is connected to the CPU 13 via the CPU bus 16. The hard disk 15 stores a label management data list 21 and data analysis software. The capacity of the hard disk 15 is about 100 GB and can be expanded. This software is used to analyze the measurement data D2 output from the strength tester 2.

  The RAM 14 is connected to the CPU 13 via the CPU bus 16, and the capacity of the RAM 14 is about 256 Mbytes. In the RAM 14, the label management data list 21 stored in the hard disk 15 and the data analysis software program are expanded by the CPU 13.

  The printer 8 is connected to the CPU 13 via the CPU bus 16. Based on the individual data D1 transmitted from the CPU 13, the printer 8 prints on the label seal 22 a barcode that encodes the identification number, creation date, building name / constructor, scheduled test date, and identification number.

  FIG. 3 is an explanatory diagram showing a configuration example of the label management data list 21. The label management data list 21 shown in FIG. 3 is stored in the hard disk 15 and is expanded in the RAM 14 by the CPU 13 when the data analysis software is activated. In the label management data list 21, items of identification number, creation date, concrete composition information, building name / constructor, scheduled test date, test execution date, and measurement data are set. For example, in the case of the concrete specimen 4 with the identification number “S3-07001”, the creation date is “2005/9/1”, the scheduled test date is “2005/9/30”, and the test implementation date is “2005/9 / 30 ".

  For example, when testing the concrete specimen 4 having the identification number “S3-07001”, the tester displays the identification number of the individual data D1 of the label seal 22 affixed to a predetermined position of the concrete specimen 4. Read by the code reader 3. The terminal device 1 compares the date of the scheduled test date item in the label management data list 21 with the date of the test day, and the identification number of the label management data list 21 in which the date of the scheduled test date item matches the date of the test day. The extracted identification number is compared with the identification number of the read individual data D1 of the concrete specimen 4, and after the comparison, the identification number of the individual data D1 and the identification of the label management data list 21 are compared. If the numbers match, the concrete specimen 4 is tested. If the comparison result does not match, the concrete specimen 4 is not tested. Thereby, the identification number of the individual data D1 of the concrete specimen 4 can be automatically identified, and only the concrete specimen 4 whose comparison result matches can be tested.

  FIG. 4 is an explanatory diagram showing a configuration example of the label seal 22. The label seal 22 and the prints M <b> 1 to M <b> 5 shown in FIG. 4 are water resistant, and the label seal 22 includes an adhesive paper 23 and a release paper 24. When the release paper 24 is peeled from the adhesive paper 23, the back surface of the adhesive paper 23 has an adhesive material, and the adhesive paper 23 is bonded to the concrete specimen 4 by this adhesive material.

  On the surface of the label seal 22, an identification number M1, a creation date M2, a building name / constructor M3, a scheduled test date M4, and a barcode M5 in which the identification number is encoded are printed. The tester can visually confirm the identification number M1, the creation date M2, the building name / constructor M3, and the scheduled test date M4. The encoded identification number can be read by holding the barcode M5 over the barcode reader 3.

  FIG. 5 is an explanatory view showing an example in which the label seal 22 is attached to the concrete specimen 4. The shape of the concrete specimen 4 shown in FIG. 5 is a cylinder, and has a diameter of about 15 cm to 30 cm and a height of about 20 cm to 40 cm. For example, ready-mixed concrete used when constructing a nuclear power plant is divided into used places and concrete composition ratios, collected in advance in a formwork, and cured underwater for a certain period. After a certain period, the hardened concrete specimen 4 is compressed by the strength tester 2 and the strength is measured. A label seal 22 is affixed to the upper surface portion 25 of the concrete specimen 4. Thus, the tester can visually confirm the identification number printed on the label seal 22. The location where the label seal 22 is affixed is not limited to the upper surface portion 25 as long as it is a location visible to the examiner.

  FIG. 6 is a flowchart showing an operation example of the barcode reader 3. In step S1 of the flowchart shown in FIG. 6, the encoded barcode of the label seal 22 attached to the upper surface portion 25 of the concrete specimen 4 is optically read before the concrete specimen 4 is tested. The bar and space pattern of the read barcode is analyzed and converted into an identification number, and the process proceeds to step S2.

  In step S <b> 2, the converted identification number is output to the terminal device 1 via the transmission cable 11. Thereby, the identification number of the concrete specimen 4 can be automatically read.

  FIG. 7 is a flowchart illustrating an operation example of the terminal device 1. The hard disk 15 of the terminal device 1 stores a label management data list 21 and data analysis software, which are expanded in the RAM 14. Using these as conditions during the strength test of the concrete specimen 4, a label seal 22 for individual identification and a label management data list 21 are created based on the individual data D1 of the concrete specimen 4 in step T1 of the flowchart shown in FIG. To do. In the label management data list 21, as shown in FIG. 3, an identification number, creation date, concrete composition information, building name / constructor, scheduled test date, test execution date, and measurement data D2 are registered.

  For example, the identification number, the creation date, the concrete composition information, the building name / constructor from the keyboard 6 and the mouse 7 provided in the terminal device 1 to the label management data list 21 by the tester on the creation date of the concrete specimen 4 , And the scheduled test date are registered. The CPU 13 outputs the registered individual data D1 to the printer 8, and the printer 8 uses the label 8 on the label sticker 22 to encode the identification number, creation date, building name / constructor, scheduled test date, and identification number. Is printed. The printed label seal 22 is affixed to the position of the upper surface portion 25 of the concrete specimen 4. Water-resistant ink is used for printed characters.

  It transfers to step T2 and the individual data D1 of the concrete specimen 4 before a test is input. For example, the barcode of the label seal 22 of the concrete specimen 4 is held over the barcode reader 3 to read the identification number of the individual data D1, and the identification number of the read individual data D1 is transmitted via the transmission cable 11 to the terminal device. 1 is input.

  The process proceeds to step T3, where the input individual data D1 is compared with the label management data list 21. For example, the date of the scheduled test date item in the label management data list 21 is compared with the date of the test day, and the identification number of the label management data list 21 in which the date of the scheduled test date item matches the date of the test day is searched. The extracted identification number and the input identification number of the individual data D1 of the concrete specimen 4 are compared.

  The process proceeds to step T4, and the comparison result is determined. If the identification number of the individual data D1 matches the identification number of the label management data list 21, the process proceeds to step T5. In step T5, the concrete specimen 4 is tested based on the comparison result. For example, the concrete specimen 4 is compressed by the hydraulic jack 9 by the strength tester 2 shown in FIG. 1, and the strength of the concrete specimen 4 is measured and displayed on the meter 10. After the measurement, measurement data D2 is input from the strength tester 2 through the transmission cable 12. The terminal device 1 records the input measurement data D2 and the label management data list 21 in association with each other. For example, as shown in FIG. 3, the measurement data D2 is recorded in association with each identification number.

  Thereby, the measurement data D2 can be referred to immediately by designating the identification number. Further, the measurement data D2 can be analyzed using data analysis software. Therefore, automatic identification of the concrete specimen 4, automatic input of the measurement data D2, and data analysis can be unified.

  If the comparison result does not match in step T4, the test of the concrete specimen 4 is not performed, so the process of step T5 is passed and the process is terminated. If the comparison result does not match, the terminal device 1 outputs an alarm sound from a speaker (not shown). Thereby, the tester can immediately notice that the test date of the concrete specimen 4 to be tested is wrong.

  Thus, according to the concrete specimen strength measurement system 100 and the strength test method thereof according to the present invention, the individual data D1 of the label seal 22 for individual identification and the label management data list 21 are compared, and the comparison result is obtained. A terminal device 1 for testing the concrete specimen 4 is provided.

  In this example, the date of the scheduled test date item in the label management data list 21 is compared with the date of the test day, and the identification number of the label management data list 21 in which the date of the scheduled test date item matches the date of the test day is determined. The extracted identification number is compared with the read identification number of the individual data D1 of the concrete specimen 4, and after the comparison, the identification number of the individual data D1 and the identification number of the label management data list 21 are compared. If they match, the concrete specimen 4 is tested.

  Accordingly, the individual data D1 of the concrete specimen 4 can be automatically identified, and only the concrete specimen 4 that matches the comparison result can be tested. As a result, it is possible to reliably capture intensity data and improve the efficiency of data analysis.

  In addition, although the example which affixes a label sheet | seat on the upper surface part 25 of the concrete test body 4 was shown in FIG.8 and FIG.9 below, the concrete test body 40 with a recessed part is formed, and the label seal | sticker 22 is attached to this concrete test body 4. FIG. An example of pasting is shown.

  FIGS. 8A to 8C are explanatory views showing an example of forming the concrete specimen 40 with a recess. The ready-mixed concrete 28 shown in FIG. 8A is in a state in which a mold 30 with a lid is filled and the convex lid 29 of the mold 30 is opened. FIG. 8B shows a state in which the convex part of the convex lid 29 is covered with the ready-mixed concrete 28 in the ready-made concrete 28 in a state where the mold 30 is filled. FIG. 8C shows a state in which the ready-mixed concrete 28 has hardened and the convex lid 29 has been removed after a certain time from the state of FIG. 8B. When the formwork 30 is removed from the state of FIG. 8C, the concrete specimen 40 with recesses shown in FIG. 9 is completed.

  FIGS. 9A and 9B are explanatory diagrams showing an example in which the label seal 22 is attached to the concrete specimen 40 with a recess. The label seal 22 is affixed to the concave portion 31 of the concrete specimen 40 with concave portions shown in FIG. The size of the transparent cover 26 is slightly larger than the size of the concave portion 31 of the concrete specimen 40 with concave portions. Thereby, the transparent cover 26 can be easily fixed to the recess 31 of the concrete specimen 40.

  FIG. 9B shows a state in which the label seal 22 is attached to the concave portion 31 of the concrete specimen 40 with a concave portion, and the transparent cover 26 is fitted and covered with the concave portion 31 from above. Thereby, it can prevent that the printing of the label seal | sticker 22 becomes dirty, and can prevent that the label seal | sticker 22 peels in the case of underwater curing.

  The present invention is suitable for application to a concrete specimen strength measurement system and the like.

It is a conceptual diagram which shows the structural example of the intensity | strength measurement system 100 of the concrete specimen as an Example which concerns on this invention. It is a block diagram which shows the structural example of the control part 20 of the terminal device 1. FIG. It is explanatory drawing which shows the structural example of the label management data list. It is explanatory drawing which shows the structural example of the label seal | sticker 22. It is explanatory drawing which shows the example which affixes the label seal | sticker 22 on the concrete specimen 4. FIG. 4 is a flowchart showing an operation example of the barcode reader 3. 4 is a flowchart illustrating an operation example of the terminal device 1. (A)-(c) is explanatory drawing which shows the example of formation of the concrete specimen 40 with a recessed part. (A) And (b) is explanatory drawing which shows the example which affixes the label seal | sticker 22 to the concrete specimen 40 with a recessed part.

Explanation of symbols

1 Terminal device (creating means and testing means)
2 Strength tester (strength measuring means)
3 Bar code reader (reading means)
4 Concrete specimen 21 Label management data list (label management information)
22 Label seal (label for identifying solids)
100 Strength test system for concrete specimens

Claims (6)

A system for testing a concrete specimen,
The identification number, creation date, concrete composition information, building name / constructor, and information including the scheduled test date can be used as individual information. The identification number, creation date, concrete composition information, building name / construction The label management information includes information including the tester, scheduled test date, test execution date, and measurement information.
And creation means the said individual information of the concrete specimen by a bar-coded to create a label for identification, and to create a label management information on the basis of the individual information,
Reading means for reading the barcode of the label created by the creating means and pasted to a predetermined position of the concrete specimen;
The bar code read by the reading means is analyzed and converted into the individual information , the individual information after the conversion is compared with the label management information, and the concrete specimen is tested based on the comparison result A test system for a concrete specimen characterized by comprising: The label includes
The test system for concrete specimens according to claim 1, wherein a water-resistant label seal is used. The test means compares the date of the scheduled test date item of the label management information with the date of the test day,
Search and extract the identification number of the label management information in which the date of the scheduled test date item matches the date of the test day,
Compare the extracted identification number with the identification number of the individual information of the read concrete specimen,
2. The test system for a concrete specimen according to claim 1, wherein the concrete specimen is tested when the identification number of the individual information matches the identification number of the label management information after the comparison. Strength measuring means for measuring the strength of the concrete specimen,
A communication means for connecting the strength measuring means and the test means;
The test means includes
The test system for a concrete specimen according to claim 1, wherein the measurement information transmitted from the strength measurement means via the communication means and the label management information are recorded in association with each other. A method for testing a concrete specimen,
The identification number, creation date, concrete composition information, building name / constructor, and information including the scheduled test date can be used as individual information. The identification number, creation date, concrete composition information, building name / construction The label management information includes information including the tester, scheduled test date, test execution date, and measurement information.
Wherein the individual information of the concrete specimen by a bar-coded to create a label for identification, and to create a label management information on the basis of the individual information,
Affix the label containing the created barcode to a predetermined position of the concrete specimen,
Read the barcode of the affixed label before testing the concrete specimen;
Analyzing the read barcode and converting it to the individual information , comparing the individual information after the conversion and the label management information,
A test method for a concrete specimen, wherein the concrete specimen is tested based on a comparison result. Compare the date of the scheduled test date item of the label management information with the date of the test day, and search and extract the identification number of the label management information where the date of the scheduled test date item matches the date of the test day And comparing the extracted identification number with the identification number of the individual information of the read concrete specimen,
6. The test method for a concrete specimen according to claim 5 , wherein the concrete specimen is tested if the identification number of the individual information matches the identification number of the label management information after the comparison.

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