JP2022080719A - Prediction method of construction timing, prediction device and concrete construction method - Google Patents

Abstract

To provide a method for predicting concrete construction timing, a prediction device, and a concrete construction method that can easily predict construction timing.SOLUTION: There provided steps of determining intercept information corresponding to measured initial temperature, estimating elapsed time from the determined intercept information and time of water pouring until a predetermined penetration resistance value is reached, measuring temperature of the concrete at time obtained by adding time obtained by subtracting predetermined subtraction time from the estimated elapsed time to the time of water pouring to the concrete, obtaining slope information corresponding to the measured temperature of the concrete, and determining an approximate equation representing the relationship between the penetration resistance and the elapsed time by using the obtained slope information and the intercept information to predict construction timing of the pushing operation.SELECTED DRAWING: Figure 5

Description

The present invention relates to a method for predicting the construction timing of concrete such as a concrete slab, a prediction device, and a method for constructing concrete.

Conventionally, concrete slabs are constructed by the procedure of placing work → leveling work → shaving work → pressing work. More specifically, concrete carried from the plant by a mixer (agitator truck) is placed on the formwork and leveled so that the whole height is determined. As the concrete hardens over time and becomes hard enough for the operator to ride on, bleeding water and edge treatment are performed, and the surface is repeatedly pressed with a trowel.

The work from shaving to pressing is necessary for the smoothness and densification of the concrete surface, and has a great influence on the quality of the slab. This pressing work is judged based on the hardness of the concrete surface touched by a skilled worker, the color of appearance, and the degree of generation of bleeding water. Due to the shortage of workers in recent years, construction based on this feeling is becoming impossible, which may lead to deterioration of the construction quality of concrete slabs. In particular, in recent years, mechanization of construction has been required for the purpose of compensating for the labor shortage in the construction industry, and the weight and power are heavier than the work by humans, and the management of construction timing is extremely important.

As a conventional method for grasping the degree of hardening of concrete, for example, the methods described in Patent Documents 1 and 2 are known. In the method of Patent Document 1, a mortar obtained by removing coarse aggregate from a concrete sample is used as a test piece, and a JIS penetration resistance test (JIS A 1147: 2007) for obtaining a penetration resistance value when a specified penetration needle is vertically pierced. Based on the data, while recording the relationship between the conductivity and the time obtained from the conductivity meter (may be a resistance value meter) installed on the test piece, from the time when the waveform changes and the concrete water injection time, This is a method of calculating the time in the subsequent penetration resistance value of concrete by obtaining the coefficient A of the hardening rate of concrete.

Japanese Unexamined Patent Publication No. 2019-73898 Japanese Unexamined Patent Publication No. 2019-73962

However, in the above-mentioned conventional method of Patent Document 1, it is necessary to wait for the timing at which the conductivity changes, and in order to prevent oversight, the measurer must be restrained or automated until the change is discerned. There is. In addition, the relationship between the conductivity of concrete and the degree of hardening tends to be difficult for concrete workers and construction sites to get an image of. In addition, the method of managing the construction timing while measuring the penetration resistance value at the actual construction site is reliable, but the work of removing coarse aggregate, the work of cleaning the used equipment, and the penetration resistance value are measured every hour. It takes time and effort to do. Therefore, there has been a demand for a method that can easily predict the concrete construction timing without any trouble.

The present invention has been made in view of the above, and an object of the present invention is to provide a concrete construction timing prediction method, a prediction device, and a concrete construction method capable of easily predicting the construction timing.

In order to solve the above-mentioned problems and achieve the object, the method for predicting the construction timing of concrete according to the present invention is suitable for performing the pressing work before performing the pressing work on the surface of the concrete under construction. It is a method for predicting the construction timing, that is, the step of acquiring the water injection time of concrete, the step of measuring the initial temperature of concrete, and the penetration resistance value and elapsed time obtained by a predetermined penetration resistance test grasped in advance. By applying the measured initial temperature to the relationship between the section information of the approximate expression representing the relationship between the above and the initial temperature of the concrete, the step of obtaining the section information corresponding to the measured initial temperature and the obtained section information are obtained. By applying to the approximate formula that expresses the relationship between the penetration resistance value and the elapsed time, the elapsed time until reaching the predetermined penetration resistance value is obtained, and by adding the obtained elapsed time to the water injection time of the concrete, it is specified from the water injection time. The temperature of the concrete at the step of estimating the elapsed time until the penetration resistance value is reached and the time obtained by subtracting the predetermined subtraction time from the estimated elapsed time and adding it to the water injection time of the concrete. The inclination information of the approximate expression showing the relationship between the penetration resistance value and the elapsed time obtained by the predetermined penetration resistance test grasped in advance, and the predetermined subtraction from the elapsed time until the predetermined penetration resistance value is reached. By applying the measured concrete temperature to the relationship of the concrete temperature at the time when the time is subtracted, the step of obtaining the inclination information corresponding to the measured concrete temperature, and the obtained inclination information and the section information are used. , Determine the approximate expression that expresses the relationship between the penetration resistance value and the elapsed time, and apply the penetration resistance value corresponding to the construction timing of the presser work to the determined approximate expression to obtain the elapsed time and obtain the elapsed time. It is characterized by having a step of predicting the time obtained by adding the water injection time of the concrete to the water injection time of the concrete as the construction timing of the pressing work.

Further, another method for predicting the construction timing of concrete according to the present invention is characterized in that, in the above-mentioned invention, the predetermined penetration resistance value is 1 (N / mm ² ) and the predetermined subtraction time is 60 minutes. And.

Further, the concrete construction timing predicting device according to the present invention is a device for predicting a suitable construction timing for performing the pressing work before performing the pressing work on the surface of the concrete during construction. A means for acquiring the water injection time of the concrete, a means for measuring the initial temperature of the concrete, an approximate section information showing the relationship between the penetration resistance value and the elapsed time obtained by a predetermined penetration resistance test grasped in advance, and concrete. By applying the measured initial temperature to the relationship of the initial temperature of, the means for obtaining the section information corresponding to the measured initial temperature and the obtained section information are approximate expressions expressing the relationship between the penetration resistance value and the elapsed time. By applying to, the elapsed time until reaching the predetermined penetration resistance value is obtained, and by adding the obtained elapsed time to the water injection time of the concrete, the elapsed time from the water injection time to reaching the predetermined penetration resistance value is estimated. A predetermined means for measuring the temperature of the concrete at a time obtained by adding a predetermined subtraction time from the estimated elapsed time to the water injection time of the concrete. The relationship between the inclination information of the approximate formula showing the relationship between the penetration resistance value and the elapsed time obtained by the penetration resistance test and the temperature of the concrete at the time when the predetermined subtraction time is subtracted from the elapsed time until the predetermined penetration resistance value is reached. On the other hand, by applying the measured temperature of the concrete, a means for obtaining the inclination information corresponding to the measured temperature of the concrete, and an approximation representing the relationship between the penetration resistance value and the elapsed time using the obtained inclination information and the section information. The elapsed time is obtained by determining the formula and applying the penetration resistance value corresponding to the construction timing of the presser work to the determined approximate formula, and the time obtained by adding the obtained elapsed time to the water injection time of the concrete. It is characterized by being provided with a means for predicting the construction timing of the pressing work.

Further, another concrete construction timing predictor according to the present invention is characterized in that, in the above-mentioned invention, the predetermined penetration resistance value is 1 (N / mm ² ) and the predetermined subtraction time is 60 minutes. And.

Further, the concrete construction method according to the present invention is based on the step of predicting the construction timing by using the above-mentioned method of predicting the construction timing of concrete, the step of placing concrete, and the predicted construction timing. It is characterized by having a step of performing a pressing operation against the surface.

According to the method for predicting the construction timing of concrete according to the present invention, it is a method for predicting a suitable construction timing for performing the pressing work before performing the pressing work on the surface of the concrete under construction. The step of acquiring the water injection time of the concrete, the step of measuring the initial temperature of the concrete, the section information of the approximate formula showing the relationship between the penetration resistance value and the elapsed time obtained by the predetermined penetration resistance test grasped in advance, and the concrete. By applying the measured initial temperature to the relationship of the initial temperature of, the step of obtaining the section information corresponding to the measured initial temperature and the obtained section information are approximate expressions expressing the relationship between the penetration resistance value and the elapsed time. By applying to, the elapsed time until reaching the predetermined penetration resistance value is obtained, and by adding the obtained elapsed time to the water injection time of the concrete, the elapsed time from the water injection time to reaching the predetermined penetration resistance value is estimated. Step to measure the temperature of the concrete at the time obtained by adding the time obtained by subtracting the predetermined subtraction time from the estimated elapsed time to the water injection time of the concrete, and the predetermined predetermined time grasped in advance. The relationship between the inclination information of the approximate formula showing the relationship between the penetration resistance value and the elapsed time obtained by the penetration resistance test and the temperature of the concrete at the time when the predetermined subtraction time is subtracted from the elapsed time until the predetermined penetration resistance value is reached. On the other hand, by applying the measured temperature of the concrete, the step of obtaining the inclination information corresponding to the measured temperature of the concrete, and the approximation showing the relationship between the penetration resistance value and the elapsed time using the obtained inclination information and the section information. The elapsed time is obtained by determining the formula and applying the penetration resistance value corresponding to the construction timing of the presser work to the determined approximate formula, and the time obtained by adding the obtained elapsed time to the water injection time of the concrete. Since it has a step of predicting the construction timing of the pressing work, it is possible to easily predict the construction timing of the subsequent pressing work by measuring the water injection time of the concrete, the initial temperature, and the temperature of the concrete at a predetermined time. It plays the effect.

Further, according to another method for predicting the construction timing of concrete according to the present invention, the predetermined penetration resistance value is 1 (N / mm ² ) and the predetermined subtraction time is 60 minutes. It has the effect that the approximate expression expressing the relationship of elapsed time can be easily and accurately determined.

Further, according to the device for predicting the construction timing of concrete according to the present invention, it is a device for predicting the suitable construction timing for performing the pressing work before performing the pressing work on the surface of the concrete under construction. The means for acquiring the water injection time of the concrete, the means for measuring the initial temperature of the concrete, and the section information of the approximate formula showing the relationship between the penetration resistance value and the elapsed time obtained by the predetermined penetration resistance test grasped in advance. By applying the measured initial temperature to the relationship between the initial temperature of concrete, the means for obtaining the section information corresponding to the measured initial temperature and the obtained section information represent the relationship between the penetration resistance value and the elapsed time. By applying to the approximate formula, the elapsed time until reaching the predetermined penetration resistance value is obtained, and by adding the obtained elapsed time to the water injection time of the concrete, the elapsed time from the water injection time to reaching the predetermined penetration resistance value is obtained. And a means for measuring the temperature of the concrete at a time obtained by adding a predetermined subtraction time from the estimated elapsed time to the water injection time of the concrete. Approximate tilt information showing the relationship between the penetration resistance value and the elapsed time obtained by the predetermined penetration resistance test, and the temperature of the concrete at the time when the predetermined subtraction time is subtracted from the elapsed time until the predetermined penetration resistance value is reached. By applying the measured concrete temperature to the relationship, the means for obtaining the tilt information corresponding to the measured concrete temperature and the relationship between the penetration resistance value and the elapsed time can be obtained by using the obtained tilt information and the section information. The elapsed time is obtained by determining the approximate expression to be expressed and applying the penetration resistance value corresponding to the construction timing of the presser work to the determined approximate expression, and the obtained elapsed time is added to the water injection time of the concrete. Since it is equipped with a means to predict the time to be pressed as the construction timing of the pressing work, it is possible to easily predict the construction timing of the subsequent pressing work by measuring the water injection time of the concrete, the initial temperature, and the temperature of the concrete at a predetermined time. It has the effect of being able to.

Further, according to another concrete construction timing prediction device according to the present invention, the predetermined penetration resistance value is 1 (N / mm ² ) and the predetermined subtraction time is 60 minutes. It has the effect that the approximate expression expressing the relationship of elapsed time can be easily and accurately determined.

Further, according to the concrete construction method according to the present invention, the step of predicting the construction timing by using the above-mentioned method of predicting the construction timing of concrete, the step of placing concrete, and the predicted construction timing are used. Since it has a step of performing the pressing work on the concrete surface, it is possible to properly perform the pressing work on the concrete surface based on the construction timing predicted before the construction. This has the effect of being able to construct concrete of stable quality.

FIG. 1 is a diagram showing an example of the relationship between the elapsed time and the intrusive resistance value, (1) is the relationship between the elapsed time and the intrusive resistance value, and (2) is the case where (1) is converted into a logarithmic value. FIG. 2 is a diagram showing an example of the relationship with the initial concrete temperature, (1) is the relationship between the initial concrete temperature and the inclination A, and (2) is the relationship between the initial concrete temperature and the intercept B. FIG. 3 (1) is a diagram showing the breakdown of the elapsed time calculated from the intercept B in the penetration resistance value 1 (N / mm ² ) of all the test samples, and FIG. 3 (2) is the relationship between the work content and the penetration resistance value. Is. FIG. 4 is a diagram showing an example of the relationship between the predicted concrete temperature and the inclination A at a penetration resistance value of 1 (N / mm ² ). FIG. 5 is a flowchart showing an embodiment of the method for predicting the construction timing of concrete according to the present invention. FIG. 6 is a screen view showing an embodiment of the concrete construction timing prediction device according to the present invention. FIG. 7 is a screen view showing an embodiment of the concrete construction timing prediction device according to the present invention.

Hereinafter, embodiments of a concrete construction timing prediction method, a prediction device, and a concrete construction method according to the present invention will be described in detail with reference to the drawings. The present invention is not limited to this embodiment.

[Method of predicting concrete construction timing]
First, an embodiment of the method for predicting the construction timing of concrete according to the present invention will be described.

(Basic principle)
First, the basic principle of the present invention will be described.
FIG. 1 (1) shows an example of the measurement results of the elapsed time and the penetration resistance value of the concrete after placing in the summer, the middle period (spring), and the winter. R in the figure is a correlation coefficient. According to this figure, each can be obtained with a high correlation, and it can be seen that the curing progresses in a short time in the summer and the curing takes a long time in the winter. For this waveform, the X-axis and the Y-axis are converted into logarithmic values, and the X-axis and the Y-axis are exchanged for easy understanding, so that FIG. 1 (2) is obtained. As shown in this figure, the penetration resistance value (X-axis) and elapsed time (Y-axis) can be expressed by linear function equations as shown below, and slope A (slope information) and intercept B (intercept information). If is obtained, the elapsed time can be calculated from the penetration resistance value.

Log of elapsed time = A × (log of intrusive resistance) + B ・ ・ ・ Equation (1)

As shown in the figure, the larger the slope A, the larger the logarithmic value of the elapsed time, and the slower the hardening rate of concrete. That is, A tends to be small in the summer when the temperature is high, and large in the winter when the temperature is low. Further, in the intercept B, as shown in FIG. 1 (2), the logarithmic value of the penetration resistance value is 0.0 (zero), which means that the penetration resistance value is 1 (N / mm ² ). Means.

FIG. 2 shows the relationship between the initial concrete temperature obtained by taking a sample from an agitator truck (concrete mixer) and actually measuring the penetration resistance value, and the inclination A and the intercept B. Concrete differs in construction time, measurement location, shipping plant, etc., but the type of concrete is general slab concrete excluding special formulations. The initial concrete temperature in this figure is the concrete temperature collected from the agitator truck arriving at the casting site.

According to this figure, the correlation between the initial concrete temperature (X-axis) and the slope A (Y-axis) is not very good, but the initial concrete temperature (X-axis) and the intercept B (Y-axis) are well correlated. I understand. Since the logarithmic value of the penetration resistance value of section B is 0.0, that is, the penetration resistance value is 1 (N / mm ² ) as described above, the slope A can be obtained by applying the above equation (1). The logarithmic value of the elapsed time can be calculated regardless, and the elapsed time can be obtained by obtaining the exponential value of this value. That is, by measuring the initial concrete temperature, the elapsed time up to the penetration resistance value 1 (N / mm ² ) can be calculated. By adding the calculated elapsed time to the water injection time of the concrete described on the mill sheet of the agitator truck or the like, the time corresponding to the penetration resistance value 1 (N / mm ² ) can be calculated. In the intercept B, the correlation is obtained by the regression curve by the logarithm, but there is almost no difference in the correlation coefficient even by the regression curve by the straight line. Therefore, either one may be selected, but at present, a logarithmic regression curve may be adopted, and then if the data are collected and the correlation of the linear regression curve is improved, it may be changed at that point.

The penetration resistance value is not stable at the stage where the concrete is still sufficiently soft (for example, about 0.01 to 0.1 (N / mm ² ) where the measured value can be obtained) because the measured value varies. Tend. In addition, the concrete temperature is affected by the ambient temperature and solar radiation, and the temperature gradually rises over time in the summer and intermediate seasons. On the other hand, the concrete temperature in winter may gradually decrease from the beginning. Therefore, it is desirable to determine the slope A when as much data as possible is obtained.

FIG. 3 (1) shows the breakdown of the elapsed time in the penetration resistance value 1 (N / mm ² ) of all the test samples calculated from the value of the intercept B. The shortest time is 129 minutes and the longest is 545 minutes. If the start of the presser work is planned from the time corresponding to the penetration resistance value of 0.5 (N / mm ² ) as shown in FIG. 3 (2), the time prediction of the work timing is more than that. Must be calculated before. On the other hand, time prediction at an early stage may be inaccurate. Therefore, in the present invention, the concrete temperature at the penetration resistance value of 1 (N / mm ² ) is predicted by the following methods (1) to (4).

(1) A predetermined subtraction time (for example, 60 minutes) is subtracted from the elapsed time at the penetration resistance value 1 (N / mm ² ) calculated from the slope B.
(2) Obtain the difference between the measured value of the concrete temperature and the initial concrete temperature during the elapsed time of (1).
(3) Since the temperature obtained in (2) has changed with the elapsed time of (1), the rate of temperature change is calculated.
(4) The predicted concrete temperature at a penetration resistance value of 1 (N / mm ² ) is obtained by using the rate of temperature change obtained in (3).

FIG. 4 shows the relationship between the predicted concrete temperature and the inclination A at the penetration resistance value 1 (N / mm ² ) calculated by the above method. Comparing this figure with the relationship between the slope A shown in FIG. 2 (1) and the initial temperature of concrete, it can be seen that the correlation is significantly improved. The concrete temperature measurement value for the time obtained by subtracting 60 minutes from the elapsed time of penetration resistance value 1 (N / mm ² ) shows that the two points in the 20 ° C range indicated by the arrows are out of the approximate straight line compared to the other measurement values. It can be seen that this is the data for the interim period, and the temperature did not rise much after the time when the temperature was predicted in the measured value, and it was significantly higher than expected. This is due to changes in the weather when measured. It is difficult to predict the intrusive resistance value 1 (N / mm ² ) and the final concrete temperature, especially in the middle period when the temperature fluctuation range is large. Therefore, in the calculation of the slope A at the present time, it is desirable to adopt the relationship of FIG. 4, which is the concrete temperature measurement value of the time obtained by subtracting 60 minutes from the elapsed time of the penetration resistance value 1 (N / mm ² ). Further, since the temperature change is large when the temperature fluctuation range is large, it is desirable that the subtraction time is as short as possible, such as 30 minutes or 20 minutes, rather than 60 minutes.

(Specific prediction procedure)
Next, a procedure for predicting the pressing timing at the time of concrete slab construction by the prediction method according to the present embodiment will be described.

As shown in FIG. 5, first, the initial temperature of the concrete is measured from the agitator truck arriving at the casting site, and the water injection time of the concrete is recorded with reference to the mill sheet of the agitator truck (step S1).

Next, the intercept B is calculated from the relationship of FIG. 2 (2), and the calculated intercept B is substituted into the above equation (1) to obtain the logarithmic value of the elapsed time. Then, by adding the exponential value of this value to the water injection time of the concrete, the elapsed time from the water injection time to the penetration resistance value 1 (N / mm ² ) is calculated (step S2).

Next, the time obtained by adding the time obtained by subtracting 60 minutes from the elapsed time of the calculated penetration resistance value 1 (N / mm ² ) to the water injection time is calculated, and the concrete temperature at that time is measured (step S3). ).

Next, the slope A is calculated from the relationship shown in FIG. 4 (step S4).

Next, the start time in each pressing operation as shown in FIG. 3 (2) is calculated, and the pressing timing of the concrete slab construction is managed (step S5). This makes it possible to predict each work time (construction timing) and time before construction.

As described above, according to the prediction method of the present embodiment, the pressing timing of the concrete slab can be easily predicted before the construction only by measuring the temperature of the concrete. Therefore, it is possible to easily grasp the time during which the construction preparation and the pressing work can be performed. It is empirically known to workers and construction managers that the hardening of concrete is early in the hot summer and late in the cold winter, and everyone imagines the management of construction timing using temperature. There is an easy advantage.

In addition, since the presser timing can be grasped in advance, it can be utilized for placement preparation and construction management of workers and construction machines. Therefore, it is possible to construct a concrete slab of stable quality. In addition, by clarifying the work end time, unnecessary work is eliminated and the time is shortened.

The type of concrete targeted in the present invention is not limited as long as it is used for ordinary slabs except for special cases.

[Concrete construction timing prediction device]
Next, an embodiment of the concrete construction timing prediction device according to the present invention will be described.

The concrete construction timing prediction device according to the present embodiment embodies the above-mentioned concrete construction timing prediction method as a device, for example, an input unit, an output unit, a calculation unit, a display unit, and a temperature measurement unit. Consists of. The input unit, output unit, calculation unit, and display unit can be configured by using, for example, a computer having a CPU, hardware such as a memory and a display, and software such as a computer program running on these hardware. The temperature measuring unit can be configured by a thermometer or the like that measures the concrete temperature.

FIG. 6 is an example of an input / output screen of the concrete construction timing prediction device according to the present embodiment. A screen like this figure is displayed on a display unit such as a display.

The input unit is an input cell composed of four items provided on the left side of this screen. Each cell has a cell (1) for inputting the "water injection time" of concrete from the mill sheet, a cell (2) for inputting the "measurement time" of the concrete initial temperature from the concrete at the site, and "concrete initial temperature". The cell (3) for inputting "concrete temperature" at the time 60 minutes before the penetration resistance value 1 (N / mm ² ) from the concrete at the site. The input data for each cell is used for the arithmetic processing of the arithmetic unit. The data to be input are the above four data, and the other items are automatically calculated in the output unit described later, and the slope A and the intercept B can be obtained.

The output unit is an output cell composed of a plurality of items provided on the right side of this screen. Each cell has "section B", "elapsed time to penetration resistance value 1 (N / mm ² )", "time 60 minutes before penetration resistance value 1 (N / mm ² )", and "penetration resistance value 1". It consists of cells for outputting "predicted concrete temperature of (N / mm ² )" and "inclination A". The calculated value calculated by the arithmetic processing of the arithmetic unit is output to each cell.

The operation of the above configuration will be described. When the three items of "water injection time", "measurement time", and "concrete initial temperature" of the input section are input, "section B" is calculated by the calculation process of the calculation section, and "penetration resistance value 1 (N). The elapsed time until / mm ² ) and the time 60 minutes before the penetration resistance value 1 (N / mm ² ) are calculated. These calculated values are instantly output and displayed in each cell of the output unit. After that, the concrete temperature is measured 60 minutes before the penetration resistance value 1 (N / mm ² ), and when this measured value is input to the "concrete temperature" of the input unit, the "penetration resistance" is calculated by the calculation process of the calculation unit. "Predicted concrete temperature with a value of 1 (N / mm ² )" and "inclination A" are calculated. These calculated values are instantly output and displayed in each cell of the output unit. In the example of the figure, the water injection time is 8:00, the measurement time is 9:31, the concrete initial temperature is 15.0 ° C., and the concrete temperature is 29.2 ° C., the intercept B = 5.82, and the inclination A = 0. The case where 10 is calculated is shown.

FIG. 7 is an example of a screen in which the construction timing in each work is calculated using the slope A and the intercept B calculated in FIG. When the slope A and the intercept B are calculated, the start time for each operation is automatically calculated by the arithmetic processing of the arithmetic unit as shown in FIG. 7. Therefore, the user of this prediction device can easily grasp the time of each work through this screen. In the case of this example, the initial concrete temperature is measured at 9:31, and when the concrete temperature at that time is measured at 12:37, the time after 13:14 when a person can get on the concrete is calculated. The work is completed at 14:43, and problems such as peeling, cracking, and color unevenness due to excessive pressing are less likely to occur, and the subsequent work is eliminated, which leads to a reduction in time.

As described above, according to the prediction device of the present embodiment, the pressing timing of the concrete slab can be easily predicted before the construction only by measuring the temperature of the concrete. Further, since the data can be input only by four items, the work is easy, and anyone can easily obtain the presser timing.

[Concrete construction method]
Next, an embodiment of the concrete construction method according to the present invention will be described by taking the case of constructing a concrete slab as an example.

First, before constructing the concrete slab, the construction timing is predicted by using the above-mentioned concrete construction timing prediction method. This makes it possible to grasp the construction timing of each presser work before construction. As a result, for example, it is assumed that the construction timing information as shown in FIG. 7 is obtained.

Next, fresh concrete is placed on the formwork to construct a concrete slab. Then, the construction timing is confirmed with reference to FIG. 7, and when it is time for a person to get on (13:14), the worker gets on the concrete slab being hardened and treats the bleeding water and the edge. Do the work of. This work will be carried out systematically so that it will be completed by the start time (14:01) of the disk and shaving. After that, the disk and trowel are put out, and when the first start time of the gold trowel (14:21) is reached, the surface is repeatedly pressed with the gold trowel. After that, when the second start time of the gold trowel (14:43) comes, the surface is finished with the gold trowel.

As described above, according to the present embodiment, it is possible to properly perform the pressing work on the surface of the concrete slab based on the construction timing predicted before the construction. This makes it possible to construct a concrete slab of stable quality.

As described above, according to the method for predicting the construction timing of concrete according to the present invention, in order to predict the suitable construction timing for performing the pressing work before performing the pressing work on the surface of the concrete under construction. This is an approximate expression that expresses the relationship between the step of acquiring the water injection time of concrete, the step of measuring the initial temperature of concrete, and the penetration resistance value and the elapsed time obtained by a predetermined penetration resistance test grasped in advance. By applying the measured initial temperature to the relationship between the section information and the initial temperature of the concrete, the step of obtaining the section information corresponding to the measured initial temperature and the obtained section information are obtained by the penetration resistance value and the elapsed time. By applying the approximate formula that expresses the relationship between, the elapsed time until reaching the predetermined penetration resistance value is obtained, and by adding the obtained elapsed time to the water injection time of the concrete, the predetermined penetration resistance value is reached from the water injection time. A step of estimating the elapsed time up to, and a step of measuring the temperature of the concrete at a time obtained by adding a predetermined subtraction time from the estimated elapsed time to the water injection time of the concrete. At the time when the predetermined subtraction time is subtracted from the inclination information of the approximate expression showing the relationship between the penetration resistance value and the elapsed time obtained by the predetermined penetration resistance test grasped in advance and the elapsed time until the predetermined penetration resistance value is reached. By applying the measured concrete temperature to the relationship of the concrete temperature, the step of obtaining the inclination information corresponding to the measured concrete temperature, and the penetration resistance value and the progress using the obtained inclination information and the section information. The elapsed time is obtained by determining the approximate expression that expresses the time relationship and applying the penetration resistance value corresponding to the construction timing of the presser work to the determined approximate expression, and the calculated elapsed time is used as the water injection time of the concrete. Since it has a step of predicting the time obtained by adding up as the work timing of the presser work, it is easy to set the work timing of the presser work thereafter by measuring the water injection time of the concrete, the initial temperature, and the temperature of the concrete at a predetermined time. Can be predicted.

Further, according to another method for predicting the construction timing of concrete according to the present invention, the predetermined penetration resistance value is 1 (N / mm ² ) and the predetermined subtraction time is 60 minutes. An approximate expression expressing the relationship of elapsed time can be easily and accurately determined.

Further, according to the concrete construction timing predicting device according to the present invention, it is a device for predicting a suitable construction timing for performing the pressing work before performing the pressing work on the concrete surface during construction. The means for acquiring the water injection time of concrete, the means for measuring the initial temperature of concrete, and the section information of the approximate formula showing the relationship between the penetration resistance value and the elapsed time obtained by the predetermined penetration resistance test grasped in advance. By applying the measured initial temperature to the relationship between the initial temperature of concrete, the means for obtaining the section information corresponding to the measured initial temperature and the obtained section information represent the relationship between the penetration resistance value and the elapsed time. By applying to the approximate formula, the elapsed time until reaching the predetermined penetration resistance value is obtained, and by adding the obtained elapsed time to the concrete water injection time, the elapsed time from the water injection time to reaching the predetermined penetration resistance value is obtained. And a means for measuring the temperature of concrete at a time obtained by adding a predetermined subtraction time from the estimated elapsed time to the water injection time of the concrete. The inclination information of the approximate formula showing the relationship between the penetration resistance value and the elapsed time obtained by the predetermined penetration resistance test, and the temperature of the concrete at the time when the predetermined subtraction time is subtracted from the elapsed time until the predetermined penetration resistance value is reached. By applying the measured concrete temperature to the relationship, the means for obtaining the inclination information corresponding to the measured concrete temperature and the relationship between the penetration resistance value and the elapsed time can be obtained by using the obtained inclination information and the section information. The elapsed time is obtained by determining the approximate expression to be expressed and applying the penetration resistance value corresponding to the construction timing of the presser work to the determined approximate expression, and the obtained elapsed time is added to the water injection time of the concrete. Since it is equipped with a means to predict the time to be pressed as the construction timing of the pressing work, it is possible to easily predict the construction timing of the subsequent pressing work by measuring the water injection time of the concrete, the initial temperature, and the temperature of the concrete at a predetermined time. Can be done.

Further, according to another concrete construction timing prediction device according to the present invention, the predetermined penetration resistance value is 1 (N / mm ² ) and the predetermined subtraction time is 60 minutes. An approximate expression expressing the relationship of elapsed time can be easily and accurately determined.

Further, according to the concrete construction method according to the present invention, the step of predicting the construction timing by using the above-mentioned method of predicting the construction timing of concrete, the step of placing concrete, and the predicted construction timing are used. Since it has a step of performing the pressing work on the concrete surface, it is possible to properly perform the pressing work on the concrete surface based on the construction timing predicted before the construction. This makes it possible to construct concrete of stable quality.

As described above, the concrete construction timing prediction method, the prediction device, and the concrete construction method according to the present invention are useful for concrete slab construction, and in particular, for predicting the construction timing of the concrete slab pressing work. Are suitable.

Claims (5)

It is a method for predicting a suitable construction timing for performing the pressing work before performing the pressing work on the concrete surface during construction.
Steps to get the water injection time of concrete and
Steps to measure the initial temperature of concrete,
It was measured by applying the measured initial temperature to the relationship between the initial temperature of concrete and the section information of the approximate formula showing the relationship between the penetration resistance value and the elapsed time obtained by the predetermined penetration resistance test grasped in advance. Steps to obtain section information corresponding to the initial temperature,
By applying the obtained section information to an approximate formula that expresses the relationship between the penetration resistance value and the elapsed time, the elapsed time until the predetermined penetration resistance value is reached is obtained, and the obtained elapsed time is added to the water injection time of the concrete. Then, the step of estimating the elapsed time from the water injection time to reaching the predetermined penetration resistance value, and
A step of measuring the temperature of concrete at a time obtained by adding a predetermined subtraction time from an estimated elapsed time to the water injection time of concrete.
At the time when the predetermined subtraction time is subtracted from the inclination information of the approximate expression showing the relationship between the penetration resistance value and the elapsed time obtained by the predetermined penetration resistance test grasped in advance and the elapsed time until the predetermined penetration resistance value is reached. A step to obtain tilt information corresponding to the measured concrete temperature by applying the measured concrete temperature to the relationship of the concrete temperature, and
By using the obtained inclination information and section information, an approximate expression expressing the relationship between the intrusion resistance value and the elapsed time is determined, and the intrusion resistance value corresponding to the construction timing of the presser work is applied to the determined approximate expression. , A method for predicting the construction timing of concrete, which comprises a step of obtaining an elapsed time, adding the obtained elapsed time to the water injection time of the concrete, and predicting the time obtained as the construction timing of the pressing work. The method for predicting concrete construction timing according to claim 1, wherein the predetermined penetration resistance value is 1 (N / mm ² ), and the predetermined subtraction time is 60 minutes. It is a device for predicting the suitable construction timing for performing the pressing work before performing the pressing work on the concrete surface during construction.
By means of obtaining the water injection time of concrete,
A means of measuring the initial temperature of concrete,
It was measured by applying the measured initial temperature to the relationship between the initial temperature of concrete and the section information of the approximate formula showing the relationship between the penetration resistance value and the elapsed time obtained by the predetermined penetration resistance test grasped in advance. A means for obtaining section information corresponding to the initial temperature,
By applying the obtained section information to an approximate formula that expresses the relationship between the penetration resistance value and the elapsed time, the elapsed time until the predetermined penetration resistance value is reached is obtained, and the obtained elapsed time is added to the water injection time of the concrete. Then, as a means to estimate the elapsed time from the water injection time to reach the predetermined penetration resistance value,
A means for measuring the temperature of concrete at a time obtained by adding a predetermined subtraction time from the estimated elapsed time to the water injection time of the concrete.
At the time when the predetermined subtraction time is subtracted from the inclination information of the approximate expression showing the relationship between the penetration resistance value and the elapsed time obtained by the predetermined penetration resistance test grasped in advance and the elapsed time until the predetermined penetration resistance value is reached. A means to obtain tilt information corresponding to the measured temperature of the concrete by applying the measured temperature of the concrete to the relationship of the temperature of the concrete.
By using the obtained inclination information and section information, an approximate expression expressing the relationship between the intrusion resistance value and the elapsed time is determined, and the intrusion resistance value corresponding to the construction timing of the presser work is applied to the determined approximate expression. , A device for predicting the construction timing of concrete, which is provided with a means for obtaining an elapsed time and predicting the time obtained by adding the obtained elapsed time to the water injection time of the concrete as the construction timing of the pressing work. The concrete construction timing prediction device according to claim 3, wherein the predetermined penetration resistance value is 1 (N / mm ² ), and the predetermined subtraction time is 60 minutes. A step of predicting the construction timing using the method for predicting the construction timing of concrete according to claim 1 or 2, a step of placing concrete, and a pressing operation against the surface of concrete are carried out based on the predicted construction timing. A concrete construction method characterized by having steps to be made.

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