JP2015203204A - Method and device for estimating amount of time available for concrete leveling work - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method and device for estimating the amount of time available for concrete leveling work, before starting leveling work on a concrete surface.SOLUTION: In a method for estimating the amount of work time available for leveling a concrete surface, the amount of time available for leveling work is derived by measuring the amount of bleeding water generated from concrete immediately after casting and the conductivity of the concrete, estimating the halting time when generation of bleeding water terminates based on the amount of bleeding water generated, before the fall starting time when the conductivity starts falling, and applying the estimated halting time of bleeding water generation and the measured fall starting time of conductivity into a predetermined relationship among the amount of time available for leveling work, the fall starting time of conductivity, and the halting time of bleeding water generation.

Description

  The present invention relates to a prediction method and a prediction device for a concrete leveling time that can be used for leveling work of a surface such as a concrete floor slab.

  Conventionally, when constructing a concrete floor slab at a construction site, a skilled engineer uses a wooden iron or a gold iron to obtain the level of the concrete placed and to ensure the smoothness of the surface as the floor slab. The surface of the concrete is smoothed by performing a leveling operation that can be pressed several times. The timing of the leveling work was determined by the experience of skilled technicians, using the hardening speed of the concrete surface and the amount of bleeding water floating on the concrete surface as a guide.

  The concrete curing rate and bleeding water generation rate and amount vary depending on the concrete mix and construction environment. For example, when the construction environment temperature is high as in summer, the concrete is generally hardened at a high rate, and the generation rate of bleeding water is also high. Therefore, it is necessary to start the leveling work quickly and finish it quickly. On the other hand, when the construction environment temperature is low, such as in winter, the curing rate of concrete is slow and the generation rate of bleeding water is also slow. For this reason, the leveling work is delayed and the work completion time is often late at night on the concrete placement day. Moreover, when the ratio of crushed sand is large in the blending of concrete, the amount of bleeding water tends to be large.

  In this way, the skilled engineer needs to adjust the level of the leveling work according to the concrete composition and construction environment. However, as described above, the leveling work depends on the experience of skilled engineers, and the judgment criteria differ for each skilled engineer. There is a case where the time of leveling work shifts. When the leveling operation is shifted, the following problems (1) and (2) occur.

(1) If the rate of concrete hardening and bleeding water is fast and the leveling operation is delayed, the concrete will harden and the surface will lose moisture, making it difficult to level the surface smoothly. There are many irregularities and the finish is poor in smoothness.

(2) If the rate of hardening of concrete or bleeding water is slow and the leveling operation is too fast, the concrete surface will be insufficient in strength or the concrete surface layer will be easily peeled off.

  Several methods have been examined in the past for grasping the timing of concrete leveling. As a conventional method, for example, a method described in Patent Document 1 is known. In this method, an electrode is installed in a concrete frame before hardening, and an electric resistance value that changes as the concrete hardens is measured. Here, the relationship between the peel strength and penetration resistance value of the surface and the electrical resistance value is obtained in advance by using a concrete specimen as a target and accumulated as data, and the optimum leveling time is grasped based on this. According to this method, the time when the measured electric resistance value reaches the determination reference value corresponding to the optimum leveling time is determined as the optimum leveling time.

  However, the electrical resistance value of concrete has a drawback that it fluctuates greatly depending on how the concrete contacts with the electrodes, and it is difficult to accurately capture the subtle changes in the electrical resistance value. In addition, it is not realistic to store data using a concrete specimen as a target in advance because it is necessary to construct a huge database.

  As a conventional technique related to the present invention, there is known a method for determining the timing of compaction work immediately after placing concrete (see, for example, Patent Documents 2 to 4).

JP-A-5-340938 JP 2013-53492 A JP 2002-242435 A JP 2013-101070 A

  By the way, in the method of the above-mentioned conventional patent document 1, before starting the leveling work of the concrete surface, it is possible to grasp the time during which the leveling work can be performed properly (the leveling work possible time). could not.

  The present invention has been made in view of the above, and a concrete leveling workable time prediction method and a prediction device capable of grasping the leveling workable time before starting the concrete surface leveling work The purpose is to provide.

  In order to solve the above-described problems and achieve the object, the method for predicting the leveling time of concrete according to the present invention is a method for predicting the leveling time that can level the concrete surface. Measuring the amount of bleeding water generated from the concrete immediately after placing and the conductivity of the concrete, and before the descent start time when the conductivity starts to drop, the amount of bleeding water generated Based on this, the occurrence end time at which the generation of the bleeding water ends is predicted, the predicted generation end time of the bleeding water and the measured descent start time of the conductivity are grasped in advance and the leveling work possible time By applying the relationship between the conductivity start time and the bleeding water finish time, the leveling time can be calculated.

  In addition, in the above-described invention, the method for predicting the leveling time of concrete according to the present invention is based on the amount of bleeding water generated, and the amount of change per unit time in the generation speed of the bleeding water is firstly calculated. The generation end time of the bleeding water is predicted by obtaining a characteristic value of a quadratic equation or a cubic equation obtained by approximating with an equation and integrating the linear equation once or twice.

  In addition, in the above-described invention, the method for predicting the leveling time of other concrete according to the present invention is based on the above-described relationship between the leveling time that can be leveled and the start time of decrease in electrical conductivity by the generation end time of bleeding water. It is characterized by the relationship with the divided value.

  In addition, in the above-described invention, the method for predicting the leveling workable time of other concrete according to the present invention is, in the above-described invention, whether the obtained leveling workable time is within the range of the leveling workable time determined by predetermined construction conditions. Exceeds the range of the leveling time that can be determined according to the predetermined construction conditions, and is within the range in which the accelerator for promoting the hardening of the concrete is to be sprayed on the surface of the concrete, or is determined according to the predetermined level. It is less than the range of possible construction time, and it is predicted whether it exists in the range which should spread the retarder for delaying the hardening of the concrete to the surface of the concrete.

  The concrete leveling time predicting device according to the present invention is a device for predicting the leveling time that can level the surface of the concrete, and is a bleeding generated from the concrete immediately after placing. Bleeding water generation amount measuring means for measuring the generation amount of water, conductivity measuring means for measuring the conductivity of the concrete, and generation of the bleeding water before the descent start time when the conductivity starts to decrease Based on the amount, the bleeding water generation end time predicting means for predicting the generation end time at which the generation of bleeding water ends, the predicted generation end time of the bleeding water and the measured decrease start time of the conductivity are determined in advance. The relationship between the known leveling time, the start time of decrease in electrical conductivity, and the generation end time of bleeding water By fitting, characterized in that it comprises a leveling construction available time prediction means for determining a leveling construction possible time.

  Further, the predicting device for the leveling time of other concrete according to the present invention is the invention described above, wherein the bleeding water generation end time predicting means is based on the amount of bleeding water generated, By approximating the amount of change per unit time with a linear equation, and determining the characteristic value of a quadratic equation or a cubic equation obtained by integrating the linear equation once or twice, the generation end time of the bleeding water is determined. It is characterized by prediction.

  In addition, in the above-described invention, the above-described relationship in the leveling workable time predicting means includes the leveling workable time and the decrease start time of the conductivity. It is a relationship with the value which remove | divided by the generation | occurrence | production completion time of bleeding water.

  In addition, in the above-described invention, the prediction apparatus for the leveling workable time of other concrete according to the present invention is in the range of the leveling time available for the leveling determined by predetermined construction conditions. Exceeds the range of the leveling time that can be determined according to the predetermined construction conditions, and is within the range in which the accelerator for promoting the hardening of the concrete is to be sprayed on the surface of the concrete, or is determined according to the predetermined level. It further comprises a range predicting means for leveling workable time that predicts whether a retarder for delaying hardening of the concrete is within a range to be sprayed on the surface of the concrete that is below the workable time range. And

  According to the method for predicting the leveling time of concrete according to the present invention, it is a method for predicting the leveling time capable of leveling the concrete, which is generated from the concrete immediately after placing. The amount of water generation and the conductivity of the concrete are measured, and the generation of the bleeding water is terminated based on the amount of generation of the bleeding water before the descent start time when the conductivity starts to decrease. Predict the end time, predict the generation time of the bleeding water and the measured start time of the decrease in conductivity, knowing beforehand the leveling work possible time, the start time of decrease in conductivity, and the end of occurrence of bleeding water By applying to the relationship with the time, the leveling work possible time is obtained, so the conductivity starts before the descent start time, i.e. Before you begin leveling work cleat surface, an effect that it is possible to grasp the leveling construction possible time.

  Further, according to the method for predicting the leveling time of other concrete according to the present invention, based on the generation amount of the bleeding water, the amount of change per unit time of the generation speed of the bleeding water is approximated by a linear equation. The generation end time of the bleeding water is predicted by obtaining the characteristic value of the quadratic equation or the cubic equation obtained by integrating the linear equation once or twice, so that the generation end time of the bleeding water can be simplified. The effect is that it can be accurately predicted by a statistical method.

  Further, according to the method of predicting the leveling workable time of other concrete according to the present invention, the relationship is a value obtained by dividing the leveling time and the decrease start time of conductivity by the generation end time of bleeding water. Therefore, by applying this relationship, which is generally considered to be in a proportional relationship, it is possible to easily obtain the leveling workable time.

  Further, according to the method for predicting the leveling workable time of other concrete according to the present invention, the obtained leveling workable time is within the range of the leveling workable time determined by the predetermined construction conditions, The leveling time that exceeds the range of the leveling time that is determined by the work conditions and that is within the range in which the accelerator for accelerating the hardening of the concrete is to be sprayed on the surface of the concrete, or that is determined by the predetermined leveling conditions. Therefore, it is predicted that the retarder for delaying the hardening of the concrete is within the range to be sprayed on the surface of the concrete. There exists an effect that the above correspondence can be performed more appropriately. For example, when the predicted range is a range in which the retarder is to be sprayed, it is possible to lengthen the subsequent leveling time by performing a countermeasure to spray the retarder on the concrete surface. In addition, when the predicted range is a range in which the accelerator is to be sprayed, it is possible to shorten the subsequent leveling time by performing a countermeasure to spray the accelerator on the concrete surface.

  Further, according to the predicting device of the concrete leveling workable time according to the present invention, it is a device for predicting the leveling workable time that can level the surface of the concrete, and is generated from the concrete immediately after placing. Generating amount measuring means for measuring the amount of bleeding water to be measured, conductivity measuring means for measuring the conductivity of the concrete, and before the descent start time at which the conductivity starts decreasing, the bleeding water A bleeding water generation end time predicting means for predicting the generation end time at which the generation of bleeding water ends based on the generation amount of the bleeding water, and the predicted generation end time of the bleeding water and the measured decrease start time of the conductivity. The leveling work time, conductivity lowering start time, and bleeding water generation end time By applying to the relationship, it is equipped with a leveling workable time predicting means for obtaining the leveling workable time, so before the descent start time when the conductivity starts to drop, that is, before starting the leveling work of the concrete surface, There is an effect that it is possible to grasp the leveling work possible time.

  Further, according to the predicting apparatus for the other concrete leveling time according to the present invention, the bleeding water generation end time predicting means is based on the amount of bleeding water generated, and the unit time of the generation speed of the bleeding water. Since the amount of change per hit is approximated by a linear equation and the characteristic value of a quadratic or cubic equation obtained by integrating the linear equation once or twice is obtained, the generation end time of the bleeding water is predicted. In addition, there is an effect that the occurrence end time of bleeding water can be accurately predicted by a simple statistical method.

  Further, according to the predicting apparatus for the leveling workable time of other concrete according to the present invention, the relationship in the leveling workable time predicting means is that the leveling workable time and the decrease start time of the conductivity are set as a bleeding water. Therefore, by applying this relationship, which is generally considered to be in a proportional relationship, it is possible to easily obtain the leveling workable time.

  Further, according to the predicting device for the leveling workable time of other concrete according to the present invention, whether the determined leveling workable time is within the range of the leveling workable time determined by the predetermined construction conditions, The leveling time that exceeds the range of the leveling time that is determined by the work conditions and that is within the range in which the accelerator for accelerating the hardening of the concrete is to be sprayed on the surface of the concrete, or that is determined by the predetermined leveling conditions. Is further provided with means for predicting the range of possible workable time for predicting whether the retarder for retarding the hardening of the concrete is within the range to be sprayed on the surface of the concrete. Based on the range of possible construction time, there is an effect that it is possible to more appropriately cope with the subsequent construction. For example, when the predicted range is a range in which the retarder is to be sprayed, it is possible to lengthen the subsequent leveling time by performing a countermeasure to spray the retarder on the concrete surface. In addition, when the predicted range is a range in which the accelerator is to be sprayed, it is possible to shorten the subsequent leveling time by performing a countermeasure to spray the accelerator on the concrete surface.

FIG. 1 is a schematic flowchart showing an embodiment of a predicting method and a predicting apparatus for concrete leveling workable time according to the present invention. FIG. 2 is a diagram showing an example of the time variation of the amount of bleeding water generated and conductivity. FIG. 3 is a diagram showing a first-order approximation equation obtained from the amount of time change in the generation rate of bleeding water per unit time. FIG. 4 is a diagram showing a quadratic equation obtained from the generation rate of bleeding water per unit time. FIG. 5 is a diagram showing a cubic equation obtained from the amount of bleeding water generated. FIG. 6 is a diagram illustrating an example of a measurement result of conductivity. FIG. 7 is a diagram showing an example of the relationship between the decrease start time of electrical conductivity, the generation end time of bleeding water, and the leveling work possible time. FIG. 8 is an image diagram showing an example of adjusting the leveling work possible time range. FIG. 9: is a schematic block diagram which shows the Example of the prediction apparatus of the leveling construction possible time of the concrete based on this invention.

  DESCRIPTION OF EMBODIMENTS Embodiments of a method and apparatus for predicting a concrete leveling time that can be applied to concrete according to the present invention will be described below in detail with reference to the drawings. Here, the concrete which is the subject of the present invention means concrete in a broad sense including a cement-based material containing cement such as mortar and cement paste. Further, in the following description, a concrete floor slab will be described as an example of concrete targeted by the present invention. However, the present invention is not limited to this embodiment.

[Prediction method of concrete leveling time]
First, an embodiment of a method for predicting the leveling time of concrete according to the present invention will be described with reference to FIGS.

The method of predicting the leveling time of concrete according to the present invention is based on two times, the generation end time of bleeding water generated from concrete and the start time of decrease in the electrical conductivity of the concrete (for example, floor slabs). ) To predict the length of time that can be leveled.
Next, a schematic procedure of the present invention will be described with reference to FIG.

[Schematic Procedure of the Present Invention]
As shown in FIG. 1, first, concrete is placed (step S1), and measurement of the amount of bleeding water generated from the concrete immediately after placement is started (step S2). Simultaneously with this measurement, measurement of the electrical conductivity of the concrete immediately after placing is started (step S5). Then, the increase in conductivity is monitored (step S6), and the decrease start time at which the conductivity starts decreasing is measured (step S7).

  On the other hand, a cubic equation that approximates the generation amount of bleeding water is obtained based on the generation amount and generation speed of the measured bleeding water (step S3). From the calculated cubic equation, the generation end time at which the generation of bleeding water ends is determined (step S4). Here, the generation end time of bleeding water is obtained before the start of decrease in the conductivity (step S7).

  Based on the determined bleeding water generation end time and the electrical conductivity lowering start time, the leveling work possible time for leveling the concrete surface is determined (step S8). If necessary, measures and measures are taken in accordance with the leveling work available time (step S9).

  As described above, according to the present invention, the occurrence time of bleeding water is predicted before the electric conductivity starts to decrease, and when the electric conductivity starts to decrease, the leveling work possible time is known. Before starting the leveling work, it is possible to grasp the leveling time available for leveling. For this reason, it is possible to take measures and countermeasures according to the length of time during which leveling can be performed. Therefore, it is possible to perform an appropriate leveling operation and to obtain an effect that a concrete having a good construction quality can be obtained.

[Specific Procedures of the Present Invention]
Next, specific procedures of the present invention will be described with reference to FIGS.

  First, as shown in FIG. 2, the amount of bleeding water generated from the concrete immediately after pouring is measured with time. At the same time, the conductivity is measured by a conductivity meter installed on the concrete. The conductivity meter has a different shape depending on the manufacturer, but any conductivity meter can be used as long as it can be stabbed into the concrete surface and stably installed. The sensor part of the conductivity meter may be a depth that is close to the concrete surface and can be stably installed on the concrete, and if the depth from the concrete surface is, for example, 10 mm to 50 mm, the difference in conductivity tends to be different. Absent.

  Here, the amount of time change per unit time of the generation rate of bleeding water is obtained based on the measured value of the generation amount of bleeding water. Then, regression analysis is performed using the data of the amount of change over time in a predetermined period, and a regression line (primary equation) of the amount of change in time is obtained as shown in FIG. FIG. 3 shows an example in which a linear approximation equation is expressed as Y = −0.000078X + 0.005694, where Y is the amount of time change and X is the elapsed time.

  In addition, as a predetermined period used for the target period of the above-described regression analysis, in this embodiment, a period from the measurement start time of the generation amount of bleeding water to a decrease start time at which the conductivity described later starts decreasing. Yes. About this period, you may select a period other than this, for example, you may set the period defined according to construction conditions etc.

Next, this primary approximation equation is integrated over time to obtain an approximation equation (secondary equation) of the generation rate of bleeding water per unit time as shown in FIG. FIG. 4 shows an example in which the quadratic equation where Y is the generation rate of bleeding water and X is the elapsed time is represented by Y = −0.000039X ² + 0.00569X + α. The integral constant α of this quadratic equation can be determined by obtaining a value at X = 0 from actually measured data. In this embodiment, α = 0.775.

Next, this quadratic equation is integrated over time to obtain an approximate equation (tertiary equation) for the amount of bleeding water generated, as shown in FIG. FIG. 5 shows an example in which the cubic equation is expressed as Y = −0.000013X ³ + 0.00285X ² + 0.775X where Y is the amount of bleeding water generated and X is the elapsed time.

  Next, the generation end time at which the generation of bleeding water ends is predicted by this cubic equation. The generation time of bleeding water can be predicted as the time X1 (= 250 minutes) corresponding to the vertex in the graph of the cubic equation of FIG. This time corresponds to the time X1 when the generation rate of bleeding water per unit time becomes 0 in the graph of the quadratic equation of FIG. In the cubic equation, a value obtained by substituting the time X1 (vertex value: 142 mL) can be predicted as the total amount of bleeding water to be generated.

  On the other hand, the time required for the electrical conductivity of the concrete to change from rising to falling is determined by measuring with a conductivity meter. As illustrated in FIG. 6, the time X0 (= 210 minutes) when the conductivity changes from rising to lowering is generally before the predicted time X1 (= 250 minutes) when the generation of bleeding water ends.

  Here, the relationship between the leveling time during which the concrete surface can be leveled and the value obtained by dividing the decrease start time of the conductivity by the generation end time of bleeding water is grasped in advance. FIG. 7 is an example of the relationship between the leveling time that can be grasped in advance and the (conductivity drop start time / bleeding water generation end time) under the condition that the construction environment temperature is 20 ° C. The regression line is shown. As shown in this figure, it can be seen that a certain proportional relationship is established between the leveling work possible time and (conductivity drop start time / bleeding water generation end time).

  The ratio (X0 / X1) is obtained from the conductivity decrease start time X0 obtained in FIG. 6 and the bleeding water generation end time X1 obtained in FIG. In this embodiment, X0 / X1 = 210/250 = 0.84. By applying this X0 / X1 to the regression line of FIG. 7, the leveling work possible time is obtained. In the case of the present embodiment, the leveling work possible time is determined to be about 75 minutes.

  As described above, according to the present invention, it is possible to grasp the time when the leveling work can be performed before the time when generation of bleeding water ends. Since the leveling work time can be grasped before starting the leveling work, it is possible to take prior measures and measures for the construction according to the length of the leveling time. Therefore, it is possible to perform an appropriate leveling operation and to obtain an effect that a concrete having a good construction quality can be obtained.

  For example, if the workable time is short with respect to the construction conditions such as the construction area and the number of installers (for example, the effect of high temperatures in summer or the mixing of concrete), spraying a retarder on the concrete surface The workable time can be extended, and good construction quality can be ensured. In the example of FIG. 8, when the leveling workable time obtained by fitting is short, and is below the workable time range (range of the leveling workable time) determined by the construction conditions such as the construction area and the number of builders. Is to spread the retarding agent on the concrete surface to lengthen the leveling workable time so that it falls within the above workable time range.

  For example, if the leveling work time is long with respect to the construction conditions such as construction area and number of installers (for example, due to low temperatures in winter or the effect of concrete mix), spraying an accelerator on the concrete surface The workable time can be shortened, and good construction quality can be ensured. In the example of FIG. 8, when the leveling workable time obtained by fitting is long and is above the workable time range (range of the leveling workable time) determined by the construction conditions such as the construction area and the number of builders, By spreading the accelerator on the concrete surface, the leveling work time can be shortened so that it falls within the above work time range.

[Prediction device for concrete leveling time]
Next, an embodiment of a predicting apparatus for concrete leveling workable time according to the present invention will be described with reference to FIG.

  As shown in FIG. 9, the concrete leveling workable time predicting device 10 according to the present invention is a device for predicting the leveling time that can level the concrete surface, and generates bleeding water. A quantity measuring means 12, a conductivity measuring means 14, a bleeding water generation end time predicting means 16, a leveling work possible time predicting means 18, and a leveling work possible time range predicting means 20 are provided.

  Bleeding water generation amount measuring means 12 measures the generation amount of bleeding water generated from concrete immediately after pouring, for example, by a method described in JIS A 1123: 2012 “Concrete Bleeding Test Method”. For example, it can be constituted by a pipette or a syringe that sucks out water that has oozed out on the concrete surface by bleeding and a graduated cylinder that measures the amount of sucked water.

  The electrical conductivity measuring means 14 measures the electrical conductivity of concrete, and can be constituted by the above electrical conductivity meter, for example.

  The bleeding water generation end time predicting means 16 predicts the generation end time at which the generation of bleeding water ends based on the generation amount of bleeding water before the descent start time at which the conductivity starts to decrease. Here, as described above, the bleeding water generation end time predicting means 16 approximates the amount of change per unit time of the generation speed of the bleeding water by a linear equation based on the generation amount of the bleeding water. The generation end time of bleeding water may be predicted by obtaining characteristic values such as extreme values and intercept values of a quadratic equation or a cubic equation obtained by integrating twice or twice. By doing in this way, generation | occurrence | production completion time of bleeding water can be accurately estimated with a simple statistical method.

  The bleeding water generation end time predicting means 16 includes a database or memory in which information representing the measured value of the amount of bleeding water generated and information representing the measured value of conductivity are stored in advance, and this database or memory. The information can be read out and configured by a computer having an arithmetic processing unit that performs predetermined arithmetic processing.

  The leveling workable time predicting means 18 is configured to grasp the predicted bleeding generation end time and the measured conductivity lowering start time in advance, the leveling workable time, the conductivity lowering start time, and the bleeding water. By applying to the relationship with the occurrence end time, the leveling work possible time is obtained. Here, as described above, the above relationship may be a relationship between the leveling work possible time and the value obtained by dividing the decrease start time of conductivity by the generation end time of bleeding water. Since this relationship is generally considered to be proportional, it is possible to easily obtain the leveling workable time by applying this relationship.

  The leveling construction possible time prediction means 18 includes information representing the relationship between the leveling construction possible time and the value obtained by dividing the decrease start time of conductivity by the generation end time of bleeding water, and the predicted bleeding water. A database or memory in which information representing the generation end time and the measured conductivity start time is stored in advance, and an arithmetic processing unit that reads out the information stored in the database or memory and performs predetermined arithmetic processing And a computer.

  The average construction possible time range predicting means 20 determines whether the obtained leveling construction possible time is within the range of the leveling construction possible time determined by the predetermined construction conditions or the leveling construction possible time determined by the predetermined construction conditions. To delay the hardening of concrete by exceeding the range and within the range where the accelerator for promoting the hardening of the concrete is to be sprayed on the concrete surface, or below the range of the average workable time determined by the predetermined construction conditions It is predicted that the retarder is within the range to be sprayed on the concrete surface. If it does in this way, based on the range of the estimated leveling construction possible time, the correspondence on subsequent construction can be performed more appropriately.

  As the range predicting means 20 of the leveling workable time, information indicating construction conditions, information indicating the relationship between the work conditions and the leveling time available for leveling, leveling work possible by the leveling workable time predicting means 18 is possible. A database or memory in which information representing time is stored in advance, and a computer having an arithmetic processing unit that reads out the information stored in the database or memory and performs predetermined arithmetic processing.

  According to the above configuration, since the occurrence time of bleeding water is predicted before the electric conductivity starts to decrease, and the time when the electric conductivity starts to decrease can be understood, the leveling work can be performed. Before starting, you can grasp the leveling time. For this reason, it is possible to take measures and countermeasures according to the length of time during which leveling can be performed. Therefore, it is possible to perform an appropriate leveling operation and to obtain an effect that a concrete having a good construction quality can be obtained.

  As described above, according to the method for predicting the leveling time of concrete according to the present invention, it is a method for predicting the leveling time capable of leveling the concrete surface, The amount of bleeding water generated from the concrete and the conductivity of the concrete are measured, and the bleeding water is determined based on the amount of bleeding water before the descent start time when the conductivity starts to decrease. The occurrence end time is predicted, and the predicted bleeding generation end time and the measured decrease start time of the conductivity are grasped in advance and the average workable time and the decrease start time of the conductivity are known. Is applied to the relationship between the occurrence time of bleeding water and the end time of bleeding water. Before the time, that is, before you begin the leveling work of the concrete surface, it is possible to grasp the leveling construction possible time.

  Further, according to the method for predicting the leveling time of other concrete according to the present invention, based on the generation amount of the bleeding water, the amount of change per unit time of the generation speed of the bleeding water is approximated by a linear equation. The generation end time of the bleeding water is predicted by obtaining the characteristic value of the quadratic equation or the cubic equation obtained by integrating the linear equation once or twice, so that the generation end time of the bleeding water can be simplified. It is possible to accurately predict by a simple statistical method.

  Further, according to the method of predicting the leveling workable time of other concrete according to the present invention, the relationship is a value obtained by dividing the leveling time and the decrease start time of conductivity by the generation end time of bleeding water. Therefore, by applying this relationship, which is generally considered to be in a proportional relationship, the leveling workable time can be easily obtained.

  Further, according to the method for predicting the leveling workable time of other concrete according to the present invention, the obtained leveling workable time is within the range of the leveling workable time determined by the predetermined construction conditions, The leveling time that exceeds the range of the leveling time that is determined by the work conditions and that is within the range in which the accelerator for accelerating the hardening of the concrete is to be sprayed on the surface of the concrete, or that is determined by the predetermined leveling conditions. Therefore, it is predicted that the retarder for delaying the hardening of the concrete is within the range to be sprayed on the surface of the concrete. The above response can be performed more appropriately. For example, when the predicted range is a range in which the retarder is to be sprayed, it is possible to lengthen the subsequent leveling time by performing a countermeasure to spray the retarder on the concrete surface. In addition, when the predicted range is a range in which the accelerator is to be sprayed, it is possible to shorten the subsequent leveling time by performing a countermeasure to spray the accelerator on the concrete surface.

  Further, according to the predicting device of the concrete leveling workable time according to the present invention, it is a device for predicting the leveling workable time that can level the surface of the concrete, and is generated from the concrete immediately after placing. Generating amount measuring means for measuring the amount of bleeding water to be measured, conductivity measuring means for measuring the conductivity of the concrete, and before the descent start time at which the conductivity starts decreasing, the bleeding water A bleeding water generation end time predicting means for predicting the generation end time at which the generation of bleeding water ends based on the generation amount of the bleeding water, and the predicted generation end time of the bleeding water and the measured decrease start time of the conductivity. The leveling work time, conductivity lowering start time, and bleeding water generation end time By applying to the relationship, it is equipped with a leveling workable time predicting means for obtaining the leveling workable time, so before the descent start time when the conductivity starts to drop, that is, before starting the leveling work of the concrete surface, It is possible to grasp the leveling work possible time.

  Further, according to the predicting apparatus for the other concrete leveling time according to the present invention, the bleeding water generation end time predicting means is based on the amount of bleeding water generated, and the unit time of the generation speed of the bleeding water. Since the amount of change per hit is approximated by a linear equation and the characteristic value of a quadratic or cubic equation obtained by integrating the linear equation once or twice is obtained, the generation end time of the bleeding water is predicted. The generation end time of bleeding water can be accurately predicted by a simple statistical method.

  Further, according to the predicting apparatus for the leveling workable time of other concrete according to the present invention, the relationship in the leveling workable time predicting means is that the leveling workable time and the decrease start time of the conductivity are set as a bleeding water. Therefore, by applying this relationship, which is generally considered to be proportional, it is possible to easily obtain the leveling workable time.

  Further, according to the predicting device for the leveling workable time of other concrete according to the present invention, whether the determined leveling workable time is within the range of the leveling workable time determined by the predetermined construction conditions, The leveling time that exceeds the range of the leveling time that is determined by the work conditions and that is within the range in which the accelerator for accelerating the hardening of the concrete is to be sprayed on the surface of the concrete, or that is determined by the predetermined leveling conditions. Is further provided with means for predicting the range of possible workable time for predicting whether the retarder for retarding the hardening of the concrete is within the range to be sprayed on the surface of the concrete. Based on the range of possible construction time, it is possible to more appropriately deal with the subsequent construction. For example, when the predicted range is a range in which the retarder is to be sprayed, it is possible to lengthen the subsequent leveling time by performing a countermeasure to spray the retarder on the concrete surface. In addition, when the predicted range is a range in which the accelerator is to be sprayed, it is possible to shorten the subsequent leveling time by performing a countermeasure to spray the accelerator on the concrete surface.

  As described above, the method and apparatus for predicting the leveling time of concrete according to the present invention are useful for concrete involving surface leveling work such as a concrete floor slab, and in particular, leveling work. Suitable for predicting possible time.

DESCRIPTION OF SYMBOLS 10 Prediction device of concrete equalizing construction possible time 12 Generation | occurrence | production measuring means of bleeding water 14 Conductivity measuring means 16 Bleeding water generation | occurrence | production completion time prediction means 18 Leveling construction possible time prediction means 20 Range prediction means of leveling construction possible time

Claims (8)

A method of predicting the leveling time that can level the surface of concrete,
Measure the amount of bleeding water generated from the concrete immediately after placing and the electrical conductivity of the concrete,
Before the descent start time when the conductivity starts to drop, based on the amount of generation of the bleeding water, predict the occurrence end time at which the generation of the bleeding water ends,
The predicted generation time of the bleeding water and the measured decrease start time of the conductivity are applied to the relationship between the known leveling time, the decrease start time of the conductivity, and the generation end time of the bleeding water. Therefore, the method for predicting the leveling time of concrete, characterized by obtaining the leveling time.   Based on the amount of bleeding water generated, the amount of change in the generation speed of the bleeding water per unit time is approximated by a linear equation, and the linear equation or the cubic equation obtained by integrating the linear equation once or twice. The method for predicting the leveling time of concrete leveling according to claim 1, wherein the generation end time of the bleeding water is predicted by obtaining the characteristic value of the concrete.   3. The concrete leveling according to claim 1, wherein the relationship is a relationship between a leveling time that can be leveled and a value obtained by dividing a time when conductivity starts decreasing by a generation time of bleeding water. Prediction method of possible construction time.   In order to promote the hardening of the concrete, the calculated leveling workable time is within the range of the leveling workable time determined by the predetermined construction conditions or exceeds the range of the leveling workable time determined by the predetermined construction conditions Is not within the range to be sprayed on the surface of the concrete, or is below the range of the leveling time that can be determined by predetermined construction conditions, and a retarder for delaying the hardening of the concrete is applied to the surface of the concrete. It is estimated whether it exists in the range which should be spread | dispersed, The prediction method of the leveling construction possible time of the concrete as described in any one of Claims 1-3 characterized by the above-mentioned. A device that predicts the leveling time that can level the surface of concrete,
Means for measuring the amount of bleeding water generated to measure the amount of bleeding water generated from the concrete immediately after placing;
A conductivity measuring means for measuring the conductivity of the concrete;
Bleeding water generation end time predicting means for predicting the generation end time at which the generation of bleeding water ends based on the generation amount of the bleeding water before the descent start time at which the conductivity starts to decrease;
The predicted generation time of the bleeding water and the measured decrease start time of the conductivity are applied to the relationship between the known leveling time, the decrease start time of the conductivity, and the generation end time of the bleeding water. A concrete leveling workable time predicting device comprising: a leveling workable time predicting means for obtaining a leveling workable time.   The bleeding water generation end time predicting means approximates the amount of change per unit time of the generation speed of the bleeding water by a linear equation based on the generation amount of the bleeding water, and integrates the linear equation once or twice. 6. The predicting apparatus for concrete leveling time according to claim 5, wherein the generation time of the bleeding water is predicted by obtaining a characteristic value of a quadratic equation or a cubic equation obtained in this way.   The relationship in the leveling construction possible time prediction means is a relationship between the leveling construction possible time and a value obtained by dividing the decrease start time of conductivity by the generation end time of bleeding water. 6. The predicting device of the concrete leveling time possible for concrete according to 6.   In order to promote the hardening of the concrete, the calculated leveling workable time is within the range of the leveling workable time determined by the predetermined construction conditions or exceeds the range of the leveling workable time determined by the predetermined construction conditions Is not within the range to be sprayed on the surface of the concrete, or is below the range of the leveling time that can be determined by predetermined construction conditions, and a retarder for delaying the hardening of the concrete is applied to the surface of the concrete. The apparatus for predicting the leveling time for leveling of concrete according to any one of claims 5 to 7, further comprising means for predicting the range of leveling time for leveling construction that predicts whether the range is to be spread. .

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