JP2010285748A - Quality control system for concrete delivered to construction site - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To accurately control whether delivered concrete carried from a plant conforms to the designed concrete required in a construction site. <P>SOLUTION: A plant-side control device 1 includes a production data storage means for storing production data of concrete to be delivered, loaded on a truck 3, and a writing means 7 for recording the production data stored in the production data storage means in a portable recording medium 4. A construction site-side control device 2 includes a planned quality storage means for storing quality data of the designed concrete, a reading means 8 for reading the production data of the concrete to be delivered, recorded in the portable recording medium 4, a planned quality confirming means for determining whether the delivered concrete conforms to the designed concrete or not, based on the production data and the quality data of the designed concrete, and a warning means for giving a warning when the planned quality confirming means determines that the delivered concrete does not conform to the designed concrete. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a quality control system for concrete delivered to a construction site, and more specifically, checks whether the quality of concrete manufactured at a factory and carried into a construction site is required at the construction site. The present invention relates to a technique for helping to assure the quality of a concrete structure to be constructed.

  Concrete cast in a construction site of a concrete structure is generally manufactured in a ready-mixed concrete factory and is carried into the construction site by a transporter. In such a concrete delivery form, when the driver of the transport vehicle (mixer truck) leaves the factory, quality information about the concrete, for example, the type of concrete actually loaded on the transport vehicle, the amount of delivery. Carry a paper slip with information such as shipping time. Then, a procedure is adopted in which a paper voucher is received at the construction site, and whether or not the quality of the delivered concrete is compatible with the planned concrete, and then the placing work is started.

  However, it cannot be said that the quality information of concrete transmitted through the paper slip in the conventional method sufficiently reflects the quality of concrete required at the construction site.

  Patent Document 1 states that “a non-contact communication medium capable of writing / reading information from the outside is attached to a ready-mixed concrete transport vehicle, and the non-contact communication medium is attached to the ready-mixed concrete transport vehicle at a shipper of ready-mixed concrete The quality of the ready-mixed concrete to be loaded and the quality / shipment information related to the shipment and the identification information of the ready-mixed concrete transport vehicle are written, and the quality / shipment information is read from the non-contact communication medium at the ready-made concrete delivery destination. A management method for ready-mixed concrete is disclosed.

  However, the method described in Patent Document 1 records the quality / shipment information of concrete on a non-contact communication medium instead of a paper slip, but only reads the information from the non-contact communication medium at the construction site. It's just a thing. In addition, if concrete is not cast within a predetermined time after production, a concrete structure of good quality cannot be obtained. However, the method described in Patent Document 1 uses concrete casting quality with respect to time. There is no mention of management.

  On the other hand, Patent Document 2 discloses a system that guarantees the quality of a concrete structure by managing the time after completion of mixing of concrete and placing the concrete within a preset allowable period. Yes. However, Patent Document 2 does not mention anything about confirming whether the quality of concrete delivered to the site is suitable for planned concrete.

JP2008-137285A JP 2005-234664 A

The present invention has been made based on the technical background as described above, and achieves the following object.
The purpose of this invention is to accurately control whether the concrete delivered from the factory conforms to the planned concrete required at the construction site, and to contribute to the construction of a concrete structure of good quality Is to provide a quality control system.

  In addition to the above object, another object of the present invention is to provide a quality concrete management system capable of accurately managing the time from the production of delivered concrete and contributing to the construction of a good quality concrete structure. There is to do.

The present invention employs the following means in order to achieve the above object.
That is, the present invention is a quality control system for concrete manufactured in a factory and delivered to a construction site by a transport vehicle,
A factory-side management device installed in the factory, a portable recording medium that moves in association with the transport vehicle, and a construction site-side management device installed in the construction site,
The factory-side management device is a manufacturing data storage means for storing manufacturing data such as the type of delivered concrete loaded on a transport vehicle, the amount delivered, and the measured value of each material for each transport vehicle,
Writing means for recording production data of the delivered concrete loaded on a transport vehicle leaving the factory on the portable recording medium,
The construction site management device is a planned quality storage means for storing quality data of planned concrete, such as the type of concrete required at the site, the planned composition,
Reading means for reading manufacturing data of the delivered concrete recorded in the portable recording medium;
Planned quality confirmation means for judging whether or not the delivered concrete conforms to the planned concrete based on the manufacturing data read by the reading means and the quality data of the planned concrete stored in the planned quality storage means. When,
A construction site delivery concrete quality control system comprising a warning means for issuing a warning when the planned quality confirmation means determines that the delivered concrete is incompatible.

Further, the present invention is a quality control system for concrete that is manufactured in a factory, delivered to a construction site by a transporter, and unloaded.
A factory-side management device installed in the factory, a portable recording medium that moves in association with the transport vehicle, and a construction site-side management device installed in the construction site,
The factory-side management device is a manufacturing data storage means for storing manufacturing data such as the type of delivered concrete loaded on a transport vehicle, the amount delivered, and the measured value of each material for each transport vehicle,
Production data of the delivered concrete loaded on the transport vehicle leaving the factory, and a writing means for recording the departure time of the transport vehicle on the portable recording medium,
The construction site management device is a planned quality storage means for storing quality data of planned concrete, such as the type of concrete required at the site, the planned composition,
Placing time limit storage means for storing concrete placing time limit data at the construction site;
Reading means for reading the production data of the delivered concrete recorded on the portable recording medium and the departure time data of the transport vehicle;
Planned quality confirmation means for judging whether or not the delivered concrete conforms to the planned concrete based on the manufacturing data read by the reading means and the quality data of the planned concrete stored in the planned quality storage means. When,
Based on the departure time data of the transport vehicle read by the reading means and the placing time limit data stored in the placing limit time storage means, it is determined whether or not the delivered concrete is appropriate as placing concrete. A placement quality confirmation means for judging;
A warning means for issuing a warning when the planned quality confirmation means determines that the delivered concrete is incompatible, or when the placement quality confirmation means determines that the delivered concrete is inappropriate. It is in the quality control system of concrete delivered to the construction site.

  In the quality management system, the planned quality confirmation means includes comparing the type data of the delivered concrete with the type data of the planned concrete and determining that the delivered concrete is incompatible when they do not match.

Further, in the quality management system, the factory-side management device includes a blending calculation unit that calculates blending data of the delivered concrete from manufacturing data of the delivered concrete recorded in the portable recording medium,
The planned quality confirmation means compares the blending data calculated by the blending calculation means with the planned blending data stored in the planned quality storage means, and if the difference between them is not within the set range, the delivered concrete is incompatible. Including determining that there is.

Furthermore, in the management system, the factory side management device is based on the departure time data of the transport vehicle read by the reading unit and the placement limit time data stored in the placement limit time storage unit. A placing time limit calculating means for calculating the placing time limit data, and a time measuring means for timing the current time data,
The placing quality confirmation means compares the current time data timed by the timing means before the start of unloading of the delivered concrete and the placing limit time, and the current time data is the placing time limit data. Including determining that the delivered concrete is inappropriate.

  According to the present invention, the factory-side management device writes the production data of the delivered concrete to be loaded on the transport vehicle to the portable recording medium, and the construction site-side management device records the production data and the planned concrete recorded on the portable recording medium. Since it is determined whether or not the delivered concrete matches the planned concrete based on the quality data, the suitability of the delivered concrete can be managed accurately, and a concrete structure of good quality can be constructed.

  Also, the departure time of the transport vehicle is written on the portable recording medium, and the delivered concrete is appropriate as the placement concrete based on the departure time recorded on the portable recording medium and the placement time limit in the construction site side management device. Since it is determined whether it exists, quality control with time progress of delivered concrete can be performed correctly, and a concrete structure of good quality can be constructed.

1 is a diagram illustrating an overall configuration of a system according to an embodiment of this invention. It is a figure which shows the specific structure of a factory side management apparatus. It is a figure which shows the specific structure of the construction site side management apparatus. It is a figure which shows the flow of a process of the construction site side management apparatus.

  Embodiments of the present invention will be described below with reference to the drawings. As shown in FIG. 1, the concrete quality control apparatus according to the present invention includes a factory management apparatus 1 installed in a factory where concrete is manufactured, and a construction site management installed in a construction site where a concrete structure is constructed. The apparatus 2 includes a portable recording medium that moves along with a transport vehicle 3 that carries concrete from a factory to a construction site, for example, a contact or non-contact type IC card 4. Specifically, the IC card 4 is carried by the driver of the transport vehicle 3.

  The factory-side management device 1 and the construction site-side management device 2 include computers 5 and 6 and read / writes 7 and 8 that can be read from and written to the IC card 4. Computers 5 and 6 are general-purpose personal computers (hereinafter referred to as personal computers) having arithmetic control devices, storage devices, input devices, display devices, and the like, and control operations of read / writes 7 and 8 connected thereto. Is possible. With the personal computers 5 and 6 and the read / writes 7 and 8, the factory side management device 1 and the construction site side management device 2 have configurations as shown in FIGS. 2 and 3, respectively.

  In the factory-side management apparatus 1 shown in FIG. 2, the manufacturing data storage means 9 is for storing manufacturing data of delivered concrete that is manufactured in the factory and loaded on the transport vehicle 3. Production data includes the type of concrete delivered (nominal strength, slump, coarse aggregate maximum size, type of cement), the amount delivered, the measured value of each material (amount of water, amount of cement, amount of other materials), aggregate surface Contains water. The transport vehicle 3 is given an identification ID, and the production data of the delivered concrete is stored in the production data storage means 9 for each identification ID.

  The time measuring means 10 is for measuring the current time. The writing means 7 constituted by reading / writing is loaded into the latest manufacturing data corresponding to the identification ID of the transport vehicle 3 among the manufacturing data stored in the manufacturing data storage means 9, that is, the transport vehicle 3 starting from the factory. The production data of the delivered concrete and the current time, that is, the departure time from the factory of the transport vehicle 3 are written in the IC card 4.

In FIG. 3, reading means 8 constituted by reading / writing is for reading manufacturing data of delivered concrete recorded on the IC card 4 and the departure time of the transport vehicle 3. The planned quality storage means 11 is for storing quality data of planned concrete, such as the type of concrete required at the construction site and the planned composition, which is input from an input means (not shown). The planned formulation is W / C (%) (water cement ratio), W / B (%) (water binder ratio), W (kg / m ³ ) (unit water volume), C (kg / m ³ ) (unit) Cement amount).

The blending calculation means 12 calculates the blending of the delivered concrete from the delivered quantity and the measured value of each material in the delivered concrete production data recorded on the IC card 4 and read by the reading means 8. The planned quality confirmation means 13 determines whether or not the delivered concrete matches the planned concrete based on the production data of the delivered concrete read by the reading means 8 and the quality data of the planned concrete stored in the planned quality storage means 11. It is for judging. Specifically, the planned quality confirmation means 13 collates the type of delivered concrete and the type of planned concrete in all of the nominal strength, slump, coarse aggregate maximum dimension, and cement type, and either does not match. Sometimes it is determined as nonconforming. Also, the planned quality confirmation means 13 uses the W / C (%) (water cement ratio), W / C ratio of the delivered concrete composition calculated by the composition calculation means 12 and the planned composition stored in the planned quality storage means 11. Compared to all of B (%) (water binder ratio), W (kg / m ³ ) (unit water amount), C (kg / m ³ ) (unit cement amount), at least the difference in unit water amount is If it is not within the setting range, it is determined as nonconforming.

  The placement limit time storage means 14 is for storing a time during which casting is allowed from the time of manufacture, that is, a placement limit time, in order to maintain the concrete placement quality, and is input by an input means (not shown). Is done. The placing time limit calculation means 15 is recorded on the IC card 4 and read by the reading means 8 based on the factory departure time of the transport vehicle 3 and the placing limit time stored in the placing limit time storage means 14. This is for calculating a placement time limit at which placement is permitted.

  The time measuring means 16 is for measuring the current time. The placement quality confirmation means 17 compares the current time measured by the timing means 16 with the placement limit time calculated by the placement limit time calculation means 15, and when the current time has reached the placement limit time. Or, when it reaches, it determines that the delivered concrete is inappropriate as the cast concrete.

  The warning means 18 is when the delivered concrete is determined to be incompatible with the planned concrete by the planned quality confirmation means 13 or when the delivered concrete is determined to be inappropriate as the cast concrete by the placement quality confirmation means 17. , For issuing warnings. As the warning means 18, various means such as displaying the word “warning” on the display device of the personal computer 6, or connecting a warning lamp to the personal computer 6 and blinking can be adopted.

  Next, the flow of quality control of concrete will be described. In the concrete factory, when loading of the concrete into the transport vehicle 3 is finished, the driver of the transport vehicle 3 starts by touching the IC card 4 to the read / write 7 of the factory side management device 1. As a result, communication is performed between the read / write 7 and the IC card 4, and the manufacturing data of the delivered concrete loaded in the transport vehicle 3 and the departure time of the transport vehicle 3 are written in the IC card 4.

  On the other hand, at the construction site, as shown in FIG. 4, the planned concrete quality data and the placement time limit are input to the personal computer 6 of the construction site side management device 2 (step S1), and the planned quality storage means 11 and the placement time are set respectively. It is stored in the set time storage means 14. When the transport vehicle 3 arrives at the construction site, the driver touches the IC card 4 on the read / write 8. As a result, communication is performed between the read / write 8 and the IC card 4, and the quality data of the delivered concrete and the departure time data of the transport vehicle 3 recorded on the IC card 4 are read (step S2). The time at this time is recorded in the personal computer 6 as the arrival time of the transport vehicle 3 at the construction site.

  Next, the blending calculation means 12 calculates the blending of the delivered concrete from the delivered quantity and the measured value of each material in the delivered concrete production data read by the read / write 8 (step S3). Further, the placement limit time calculation means 15 calculates the placement limit time from the placement limit time stored in the placement limit time storage means 14 and the factory departure time of the transport vehicle 3 read by the read / write 8. (Step S4).

  Next, the planned quality confirmation means 13 compares the type of delivered concrete with the type of planned concrete stored in the planned quality storage means 11 in the manufacturing data read by the read / write 8 (step S5). When the types do not match, the type of delivered concrete is determined to be nonconforming and a warning is issued (step S6). When this warning is issued, the delivered concrete is discarded (the same applies to the following warnings).

  On the other hand, when it is determined that the type of delivered concrete is appropriate, the planned quality confirmation means 13 continues to mix the delivered concrete calculated by the blend calculating means 12 and the planned concrete blend stored in the planned quality storage means 11. Are compared (step S7). When it is determined that the blending difference is not within the set range and the blending of the delivered concrete is incompatible, a warning is issued (step S6).

  On the other hand, when it is determined that the composition of the delivered concrete is suitable, the current time measured by the timing means 16 and the placement limit time calculated by the placement limit time calculation means 15 are determined by the placement quality confirmation means 17. Comparison is made (step S8). When the current time has already reached the placement limit time and it is determined that the delivered concrete is inappropriate as the placement concrete, a warning is issued (step S6).

  On the other hand, if the current time has not yet reached the casting time limit, it is determined that the delivered concrete is appropriate as the casting concrete, and unloading is started (step S9). At the start of unloading, the IC card 4 is touched to the read / write 8 to perform communication between them, and the time at that time is recorded in the personal computer 6 as the unloading start time. Unloading of delivered concrete is performed by transferring to a pump car, and concrete is placed through the pump car simultaneously with unloading. The placement quality check by comparing the current time with the placement limit time is also performed after unloading, that is, during concrete placement (step S10), and a warning is issued when the current time reaches the placement limit time. The concrete remaining in the transport vehicle 3 is discarded. When the unloading is completed and the IC card 4 is touched to the read / write 8, the personal computer 6 recognizes the completion of unloading by the communication (step S11), and the concrete quality confirmation processing for one transport vehicle is completed. To do. The time at this time is recorded in the personal computer 6 as the unloading end time.

  As described above, the present invention writes manufacturing data of delivered concrete to be loaded on a transport vehicle into the IC card 4 in the factory management device 1, and the manufacturing data and plan recorded in the IC card in the construction site management device 2. Since it is determined whether or not the delivered concrete matches the planned concrete based on the quality data of the concrete, the suitability of the delivered concrete can be managed accurately, and a concrete structure of good quality can be constructed.

  Moreover, the departure time of the transport vehicle is written on the IC card 4, and in the construction site side management device 2, the delivered concrete is appropriate as the placement concrete based on the departure time recorded on the IC card 4 and the placement time limit. Therefore, it is possible to accurately control the quality of the delivered concrete over time and to construct a concrete structure of good quality.

DESCRIPTION OF SYMBOLS 1 Factory side management apparatus 2 Construction site side management apparatus 3 Transportation vehicle 4 IC card 5,6 Personal computer 7 Writing means (read / write)
8 Reading means (read / write)
9 Manufacturing data storage means 11 Planned quality storage means 12 Formulation calculation means 13 Planned quality confirmation means 14 Placing limit time storage means 15 Placing limit time calculation means 17 Placing quality confirmation means

Claims (5)

A concrete quality control system manufactured at a factory and delivered to a construction site by a transport vehicle,
A factory-side management device installed in the factory, a portable recording medium that moves in association with the transport vehicle, and a construction site-side management device installed in the construction site,
The factory-side management device is a manufacturing data storage means for storing manufacturing data such as the type of delivered concrete loaded on a transport vehicle, the amount delivered, and the measured value of each material for each transport vehicle,
Writing means for recording production data of the delivered concrete loaded on a transport vehicle leaving the factory on the portable recording medium,
The construction site management device is a planned quality storage means for storing quality data of planned concrete, such as the type of concrete required at the site, the planned composition,
Reading means for reading manufacturing data of the delivered concrete recorded in the portable recording medium;
Planned quality confirmation means for judging whether or not the delivered concrete conforms to the planned concrete based on the manufacturing data read by the reading means and the quality data of the planned concrete stored in the planned quality storage means. When,
A construction site delivered concrete quality control system, comprising: warning means for issuing a warning when the planned quality confirmation means determines that the delivered concrete is incompatible. A quality control system for concrete that is manufactured at a factory, delivered to a construction site by a transporter, and unloaded.
A factory-side management device installed in the factory, a portable recording medium that moves in association with the transport vehicle, and a construction site-side management device installed in the construction site,
The factory-side management device is a manufacturing data storage means for storing manufacturing data such as the type of delivered concrete loaded on a transport vehicle, the amount delivered, and the measured value of each material for each transport vehicle,
Production data of the delivered concrete loaded on the transport vehicle leaving the factory, and a writing means for recording the departure time of the transport vehicle on the portable recording medium,
The construction site management device is a planned quality storage means for storing quality data of planned concrete, such as the type of concrete required at the site, the planned composition,
Placing time limit storage means for storing concrete placing time limit data at the construction site;
Reading means for reading the production data of the delivered concrete recorded on the portable recording medium and the departure time data of the transport vehicle;
Planned quality confirmation means for judging whether or not the delivered concrete conforms to the planned concrete based on the manufacturing data read by the reading means and the quality data of the planned concrete stored in the planned quality storage means. When,
Based on the departure time data of the transport vehicle read by the reading means and the placing time limit data stored in the placing limit time storage means, it is determined whether or not the delivered concrete is appropriate as placing concrete. A placement quality confirmation means for judging;
A warning means for issuing a warning when the planned quality confirmation means determines that the delivered concrete is incompatible, or when the placement quality confirmation means determines that the delivered concrete is inappropriate. A quality control system for concrete delivered at the construction site.   The construction according to claim 1 or 2, wherein the planned quality confirmation means includes comparing the type data of the delivered concrete with the type data of the planned concrete and determining that the delivered concrete is incompatible when they do not match. On-site concrete quality control system. The factory-side management device comprises blending calculation means for calculating blended data of the delivered concrete from the production data of the delivered concrete recorded on the portable recording medium,
The planned quality confirmation means compares the blending data calculated by the blending calculation means with the planned blending data stored in the planned quality storage means, and if the difference between them is not within the set range, the delivered concrete is incompatible. The quality control system for concrete delivered to a construction site according to claim 3, comprising determining that there is. The factory-side management device obtains placement limit time data based on the departure time data of the transport vehicle read by the reading means and the placement limit time data stored in the placement limit time storage means. A placing time limit calculating means for calculating, and a time measuring means for measuring current time data,
The placing quality confirmation means compares the current time data timed by the time measuring means with the placing time limit before starting the unloading of delivered concrete and during the unloading, and the current time data is the placing time limit data. The concrete quality control device according to claim 2, 3 or 4, comprising: determining that the delivered concrete is inappropriate when reaching or reaching.

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