JP2006183257A - Quality control method of cement structure - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To control quality of a structure, by inputting information to a computer, by directly writing and burying the information on mortar and concrete used for the cement structure in an IC tag. <P>SOLUTION: When placing the motor or the concrete of kneading cement, an aggregate and water, while filling a part of the motor or the concrete in a testing unit up to placing time from delivery, a noncontact IC tag of writing an ID number is buried in the motor or the concrete. After preserving the testing unit for the predetermined number of days, at least compressive strength is measured, and the information on respective parts of the structure and required information on the mortar or the concrete are inputted to the computer including the location of the structure, and are permanently preserved by arrangement and integration, and afterwards, information on the whole structure can be provided up to reaching details of the respective parts from the computer by reading the information of the IC tag by bringing a reader near to any part of the structure. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention directly embeds information on mortar and concrete used in infrastructure such as roads, railways, bridges, tunnels, revetments, and cement structures such as commercial buildings, houses, public buildings, etc., directly on an IC tag, The present invention relates to a method for permanently controlling the quality of a cement structure by inputting it into a host computer.

Mortar is a mixture of cement and fine aggregate with water, and concrete is a mixture of cement, fine aggregate, coarse aggregate and water. These are condensed and cured when left standing, and have high compressive strength, so they are widely used in structures and buildings.
In general, the strength of mortar and concrete is said to depend on the water / cement ratio. However, there is a limit because the workability is lowered when the proportion of cement is increased. Therefore, various cement admixtures including water reducing agents are used, and high strength mortar concrete is pursued while maintaining high workability even if the ratio of water is reduced.

The quality of mortar and concrete cannot be judged from the outside, even after being hardened, even by experts. It is impossible to check the strength by destroying the finished structure. If necessary, drill a hole and take out a part of the concrete as a test piece. Is measuring. In this method, the hole is filled with concrete again and repaired, but it is obvious that the strength of the structure is hindered and is difficult to adopt.
Although mortar and concrete are now widely used, information on mortar and concrete is managed immediately after construction, but it will be lost after two to three years, and it will be difficult to obtain detailed information later. It is.

Even in a construction site where it is actually placed, it is difficult to predict from the outside the strength of mortar and concrete after hardening, even if it is an expert. It is impossible to judge unless a sample of concrete having fluidity is taken and simultaneously hardened under the same conditions and the strength after 28 days of this sample is broken and measured.
Furthermore, information about the formulation is important. This is the information that consumers want to know most about, such as the type and amount of cement and aggregate used, as well as the type and amount of admixture. Moreover, even if it is placed after a long time has elapsed since cement kneading for some reason, these facts cannot be judged after curing.
JP-A-3-265550

Kneaded mortar and concrete can be considered as a kind of raw material. Therefore, freshness is important, and after kneading, the curing reaction at the molecular level progresses from moment to moment, and the consistency changes. Therefore, the time difference and temperature between kneading and placing are important information, but there is actually no means for recording this. Moreover, there was no custom of confirming the strength, etc. of the already completed building and the structure 28 days after the installation.
Furthermore, the compressive strength of mortar and concrete used, the quality of all raw materials, the blending ratio, physical properties, etc. are important information when checking the durability of bridges and roads, and buying and selling all or part of buildings. However, there was no custom to obtain this.

  An object of the present invention is to solve the above-mentioned problems, and its constitution is that kneading cement, aggregate and water to produce mortar or concrete, and placing it between the time of shipment and the time of placing. While taking a sample of mortar or concrete as a sample and filling the test unit, a non-contact, passive IC tag with at least the ID number of the mortar or concrete is placed on the mortar or concrete placement site of the structure. In addition to burying, the test unit is stored for a predetermined number of days in an environment as close as possible to the placement site, then destroyed and measured at least for compressive strength, starting from the location of the building, and starting from the compressive strength for each part of the building. Enter necessary information on mortar or concrete into the host computer, organize and consolidate it permanently, The host computer can be accessed, and the host computer can also be accessed by reading information of at least one IC tag by bringing a reader close to any part of the construct. It is characterized in that it is possible to obtain information on the entire structure up to the details, and the information that the IC tag has is always consistent with the information of the host computer.

  The present invention organizes and integrates detailed information on the mortar and concrete used in each part of the cement structure, its fresh properties, as well as the reinforcing bar arrangement into a host computer as an integrated building and integrated structure. The information is stored permanently and, if necessary, the person who needs the information can access the computer and obtain the information of the target structure. For long-distance structures such as roads and tunnels, information on the entire divided section can be obtained by dividing the structure into a certain distance or each work area.

Furthermore, if information is read from at least one embedded IC tag by bringing a reader close to the structure, the host computer can be accessed based on this information, and a compressive strength that cannot be actually measured is predicted. be able to.
To do so, embed non-contact, passive IC tags filled with at least an ID number, preferably other information such as blending, slump or flow, near the surface of the mortar or concrete that has been placed, or in advance on the mortar or concrete. It is necessary to mix at least a non-contact and passive IC tag with an ID number.

On the other hand, it becomes possible to access the host computer from the ID number read by bringing the reader close, and it is possible to obtain mortar and concrete information of each part of the entire structure inputted by organizing and integrating. In this case, if there is other information in the IC tag, this information and the information of the host computer always match.
Based on this information, the owner of the building can determine its durability and determine the time of repair and rebuilding. For road managers, it becomes a material for determining the priority of repair.

  By adopting the present invention, even for old individual buildings and structures, by reading the information of the embedded IC tag, the number of piers and the number of pillars on the west wall of the 4th floor along with the overall strength It becomes possible to know the strength of concrete locally, and it is possible to obtain necessary information at any time for setting repair periods and buying or selling all or part of the building, making the cement structure more reliable. improves.

The present invention can be applied not only to concrete but also to mortar. Mortar is a mixture of cement and fine aggregate with water, and concrete is a mixture of cement, fine aggregate, coarse aggregate and water.
There are various mixed cements such as fly ash cement, blast furnace cement and silica cement in addition to various portland cements such as ordinary portland cement, early-strength portland cement, and medium-heated portland cement. Furthermore, recently, special cements that have been formulated with spherical fine particles such as silica fume, or type II anhydrous gypsum, etc. have been strengthened, and for tunnel construction, quick setting special cements such as alumina cement, etc. There are all so-called hydraulic substances.

Fine aggregate is sand having a diameter of 5 mm or less, and river sand and mountain sand are mainly used. In this case, it is necessary to display the average particle diameter in addition to the density and the production area. Recently, there is a shortage of sand, and sea sand may be washed before use. However, if sea sand is not washed sufficiently, salt will remain and it will affect the durability.
Coarse aggregate is a crushed stone having a diameter of 5 mm or more, which also displays density, locality and average particle size. Recently, crushed stones tend to be insufficient, and fragments of destroyed concrete structures are sometimes used.

As the mixing water, fresh water is originally used, but recently, as shown in Patent Document 1, sludge water that contains a retarder and suppresses the hydration reaction of cement is reused as part of the mixing water and cement. This method is being adopted, and the blending amount and characteristics of sludge water should also be described.
Furthermore, various cement admixtures are used for blending mortar and concrete. Admixtures include water reducing agents, AE agents, retarders, accelerators, swelling agents, foaming agents, grout agents, and the like. In particular, water reducing agents are widely used and include lignin sulfonate-based water reducing agents, melamine sulfonic acid-based water reducing agents, naphthalene sulfonic acid-based high-performance water reducing agents, and polycarboxylic acid-based ultra-high-performance water reducing agents. Depending on the type and amount, the slump or flow increases and the workability is improved while maintaining the same water / cement ratio.

Slump is a numerical value measured in accordance with JIS A 1101. A slump cone having a bottom diameter of 10 cm, an upper diameter of 20 cm and a depth of 30 cm is filled with mortar or concrete and placed on a flat surface with the upper surface facing down. Then pull up the slump cone. At this time, since the mortar or concrete is soft, the height of 30 cm cannot be maintained. 30 cm-mortar or concrete height (cm) = slump, and softer concrete has a larger slump.
The flow is also a numerical value measured in accordance with JIS A 1101 and represents the diameter of raw concrete that has spread when the slump cone is lifted on a flat plate in cm. These are also entered in the host computer and IC tag.

The fresh property of mortar or concrete refers to unit water amount, air amount, mortar or concrete temperature, chlorine ion amount, etc. in addition to slump or flow.
After kneading, ready-mixed rice with a short elapsed time has a good slump or flow, but the slump or flow tends to decrease with the passage of time, and this tendency is particularly remarkable when the temperature is high. Therefore, not only the slump or flow at the time of shipment but also the slump or flow at the time of placing is important. In the present invention, the slump or flow at the time of shipment and the slump or flow at the time of placing are preferably stored in the host computer, and the slump or flow at the time of placing is particularly important.

The blending in the present invention is the weight of each component such as cement, fine aggregate, coarse aggregate, admixture, and fresh water blended per 1 m ^{3 of} mortar or concrete, and is generally expressed as kg / m ³ .
In addition to this, it is preferable to write the mortar or concrete air amount, loss on ignition, temperature, and further a bar arrangement diagram to the host computer.

  The IC tag used in the present invention is preferably a non-contact type, a passive type having no antenna and having an antenna. Since it is embedded or blended in mortar, it has a relatively small volume and a size equivalent to that of fine aggregate, preferably 5 mm square or less. Recent advances in IC technology have been remarkable. In addition to ID, information and composition regarding all raw materials of mortar or concrete, shipping date, shipping time, slump or flow, building location, placement A lot of information such as a part can be written.

FIG. 1 is an explanatory diagram of a mechanism in which the reader 1 receives information on the IC tag 2. Reference numeral 3 denotes an IC chip in which information is input. 4 is an antenna. When the reader 1 sends a radio wave of a certain frequency, the antenna 4 generates electricity from the received radio wave and reads the information on the IC chip. Then, the information read from the IC chip is transmitted to the reader 1 using the generated electric power.
The frequency band of the radio wave used when the reader 1 reads information from the IC tag 2 is not limited, but there are two types of frequency bands currently used in the country, the 13.56 MHz band and the 2.45 GHz band. The 13.56 MHz band has a slightly short reading distance, while the 2.45 GHz band has a reading distance close to 1 m, but is vulnerable to moisture. A UHF band (900 MHz band) radio wave having a long linear distance and strong against moisture is preferable.

The IC tag in which information on cement or concrete is written may be embedded near the surface of the mortar or concrete to be placed. In this case, since the site to be embedded is shallow and is known in advance, reading by a reader is easy, and the number of IC tags to be embedded is small. On the other hand, when the embedding work is troublesome, the IC tag is kneaded into the mortar or concrete to be shipped and placed as it is. In this case, if the reader searches for the surface of the structure, nearby IC tags react to provide information. In this case, at least one, preferably two or more IC tags are kneaded per 4.5 m ^{3 of} mortar or concrete.

The sample of the mortar or concrete is collected from shipping to placing, preferably at the time of placing, and more preferably divided into two times at the time of shipment and placing. The sample is filled in at least one test unit, preferably two or more test units, cured in an environment similar to the placement site, and destroyed after a certain number of days to measure the strength. When steam curing or autoclave curing is performed, the test unit is cured under the same conditions.
Mortar and concrete increase in strength over time, but the rate of increase gradually slows and is generally expressed as mortar or concrete strength with 28 days strength. In the present invention, although it is not limited to 28 days, it is a general number of days. After that, the concrete gradually increases in strength.

The characteristic of mortar and concrete is the magnitude of its compressive strength. Therefore, the compressive strength is important as the strength after a certain number of days. Next, it is preferable to measure and fill in bending strength, tensile strength, water resistance, and the like.
In addition, when vibration compaction is performed, it is necessary to apply the same vibration to the test unit. There are no particular limitations on the test site, whether it is a ready-mix factory, a construction site, or a third-party organization.

FIG. 2 is a schematic diagram of the computer network of the present invention.
The ready-mix factory is not limited to an independent ready-mix factory, and may be any plant that kneads mortar or concrete necessary for placing. While transporting ready-mixed concrete from the ready-mixed factory to the construction site, a part of mortar or concrete is sampled, filled into a test unit, and stored for a predetermined number of days. In the ready-mixed concrete, an IC tag in which information related to the mortar or concrete is written in addition to the ID number is kneaded or brought separately and buried near the surface of the mortar or concrete to be placed.

  The ID number and other information of the ready-mixed containers shipped from the ready-mixed factory are entered into a separate host computer. The test unit storage organization stores the test unit under conditions approximate to the site for placing the specified number of days, and then tests it by destroying the compressive strength and other characteristics. To the host computer. The host computer organizes and integrates each input information and records the characteristics of each part in the entire structure in detail. In addition, the information in the host computer is made unrewritable and erasable.

  If the user, that is, owner, architect, country, local government, ministries and agencies related to national land traffic, building traders, etc. need information about the structure, directly if the ID number is known Information can be obtained by accessing the host computer. Even if the document has already been lost, the information of the embedded IC tag can be obtained by the reader as shown in FIG. 1, and the information of the host computer can be accessed. In this case, the information obtained from the IC tag must match the information obtained from the host computer. When the information matches, the credibility of the host computer information is greatly improved.

  In the present invention, a sample for strength measurement is taken from a ready-mixed kneading plant to a construction site by an agitator car and placed, preferably at the time of placing, and separately stored for a predetermined period to compress the strength. In addition to measuring the various strengths such as, and permanently storing them, the IC tag to which information on the mortar or concrete used in the structure is input is embedded in the mortar or concrete. As a result, the IC tag information can be read as long as the construct exists, and this alone guarantees the quality of the part of the construct. In order to save the trouble of reading all IC tags, the information of at least one IC tag ensures that the host computer that can obtain the information of the entire structure is always accessible and guarantees the quality of the cement structure. is there.

  The present invention can also be applied to concrete secondary products. For example, it can be used for U-shaped grooves, pox culverts, centrifugal force molded tubes, various concrete blocks, etc., to guarantee the product.

It is explanatory drawing of the mechanism in which a reader | leader receives the information of an IC tag. It is a schematic diagram of this invention computer network.

Explanation of symbols

1 Reader 2 IC Tag 3 IC Chip 4 Antenna

Claims (6)

When producing and placing mortar or concrete by mixing cement, aggregate and water, a part of the mortar or concrete is sampled between the time of shipment and the time of placement and filled into the test unit. Burying a non-contact, passive type IC tag in which at least an ID number of the mortar or concrete is filled in the mortar or concrete placement site of the structure,
After storing the test unit for a predetermined number of days in an environment as close as possible to the installation site, break and measure at least the compressive strength,
The necessary information on the mortar or concrete including the location of the structure, the compressive strength of each part of the structure, etc. is input to the host computer, consolidated and stored permanently, and then the host computer can be accessed by ID number. In addition, the host computer can be accessed by reading the information of at least one IC tag by bringing a reader close to any part of the structure, and information on the entire structure up to the details of each part. A quality control method for a cement structure, characterized in that The IC tag embedded in mortar or concrete is inputted with details of raw materials, its mixing ratio, measurement value, kneading date and shipping time in addition to the ID number. Quality control method. In addition to the ID number, the placement date, the receiving time, the fresh properties of the mortar or concrete and the temperature of the mortar or concrete are entered in the IC tag embedded in the mortar or concrete. The quality control method of the cement structure as described in 1 or 2. The quality control method for a cement structure according to any one of claims 1 to 3, wherein a bar arrangement chart is entered in addition to an ID number on an IC tag embedded in mortar or concrete. 5. The method for quality control of a cement structure according to claim 1, wherein the information read from each IC tag always coincides with the information input to the host computer. The quality of the cement structure according to any one of claims 1 to 5, wherein the IC tag is kneaded in advance in mortar or concrete to be placed at a ratio of 1 or more in 4.5 m ^3. Management method.