JP7341816B2 - Construction method for concrete structures - Google Patents

Description

The present invention relates to a method for constructing concrete structures such as concrete slabs.

Conventionally, when constructing a concrete slab, concrete is transported from a plant using a mixer, poured onto formwork, and then leveled to a predetermined height. The poured concrete hardens over time until it is hard enough for a worker to stand on, and then it is rounded out with a hand trowel or a mounted trowel. The process involves pressing the surface with a trowel to finish it (see Figure 7). This pressing work using a riding type trowell is necessary for smoothing and densifying the concrete surface, and it must be performed reliably because it has a great effect on the quality of the slab.

This hand trowel or riding trowell uses a disc to remove the rough edges, and the riding trowell uses a trowel to finish the work, depending on the degree of hardening of the concrete. The work begins when the hand trowel disks are used to make the surface rougher, which is when people can ride on the concrete wearing net geta. On the other hand, there is a large difference in the timing at which the pressing work for finishing with a metal trowel using a riding type trowel is finished because the judgment criteria differ depending on the operator. When pressing with a metal trowel is performed after the concrete has hardened considerably, the surface of the concrete becomes shiny black, as shown in Figure 8. This is called a mirror finish, and there are cases where this state is considered the end of the work, and where this is the desired finish. However, the surface of concrete is often uneven, and there are areas that are easy to hit with the trowel and areas that are difficult to hit, so the areas that are easy to hit with the trowel begin to glow black from an early stage. As a result, there are cases in which color unevenness occurs on the concrete surface, causing problems. In addition, the parts that are shining black have been sufficiently hit by the trowel, which may cause cracks or peeling on the surface. This is caused by over-applying the trowel, but since finishing the work depends on the operator's judgment, this is the cause of the problem.

Regarding the above concrete slab construction technique, the applicant of this patent has already proposed techniques as shown in Patent Documents 1 and 2.

JP2018-188810A JP 2019-73962 Publication

The poured concrete gradually hardens over time. Measurement of the degree of hardening of concrete is specified in JIS A 1147 "Testing method for setting time of concrete", and a needle with a predetermined cross-sectional area is penetrated 25 mm into the mortar that has been sieved from the concrete, as shown in the measurement example in Figure 9. Find the relationship between elapsed time and penetration resistance value as follows. In the setting test, 3.5 (N/mm ² ) is called the starting point and 28.0 (N/mm ² ) is called the ending point.

The trowel finish of the mounted Trowel will shine black if the trowelling process continues until near the end. As the surface becomes denser, it reflects light and becomes shiny black, but problems such as uneven coloring, cracking, and peeling are more likely to occur due to differences in the degree of local pressing. For this reason, there was a need for a construction method that would not cause problems such as uneven color, cracking, and peeling.

The present invention has been made in view of the above, and an object of the present invention is to provide a method for constructing a concrete structure that can reduce the occurrence of surface color unevenness, cracking, peeling, etc.

In order to solve the above-mentioned problems and achieve the purpose, a method for constructing a concrete structure according to the present invention is a method for constructing a concrete structure, which measures the penetration resistance value of poured concrete. The method is characterized in that the surface of the poured concrete is finished based on the determined penetration resistance value.

In addition, in another method of constructing a concrete structure according to the present invention, in the above-mentioned invention, a guideline value of the penetration resistance value at which work is started is set in advance for each type of work to finish the concrete surface, and the value is measured. The present invention is characterized in that the type of work corresponding to the reference value is started within a predetermined range before and after the time when the penetration resistance value becomes the reference value.

In addition, in the above-mentioned invention, another method for constructing a concrete structure according to the present invention is to install a hand trowell within a predetermined range before and after the time when the measured penetration resistance value becomes 0.5 (N/mm ² ). The undercutting work using the disc of the presser machine is started within a predetermined range before and after the time when the measured penetration resistance value reaches 2.0 (N/mm ² ). It is characterized in that the finishing work using the trowel of the pressing machine is started within a predetermined range before and after the time when the value becomes 3.5 (N/mm ² ).

According to the method for constructing a concrete structure according to the present invention, the penetration resistance value of the poured concrete is measured, and based on the measured penetration resistance value, the penetration resistance value of the poured concrete is determined. Since the work of finishing the surface is performed, it is possible to finish the surface at an appropriate timing, and it is possible to reduce the occurrence of uneven coloring, cracking, peeling, etc. on the surface.

Further, according to another method for constructing a concrete structure according to the present invention, a guideline value of penetration resistance at which work is started is set in advance for each type of work for finishing the concrete surface, and the penetration resistance is measured. Since the type of work corresponding to the standard value is started within a predetermined range before and after the time when the value becomes the standard value, each work can be started at an appropriate timing.

In addition, according to another method for constructing a concrete structure according to the present invention, the disc of the hand trowel is used to provide a soft spot within a predetermined range before and after the time when the measured penetration resistance value becomes 0.5 (N/mm ² ). Start the unloading work, and start the unrolling work using the disc of the presser machine within a predetermined range before and after the time when the measured penetration resistance value reaches 2.0 (N/mm ² ), and when the measured penetration resistance value reaches 3. .5 (N/mm ² ), finishing work using the metal trowel of the pressing machine is started within a predetermined range before and after the time when 5 (N/mm 2 ) is reached, so a clean concrete structure with no uneven color, cracks, or peeling on the surface is constructed. It has the effect of being able to

FIG. 1 is a flowchart showing an embodiment of a method for constructing a concrete structure according to the present invention. FIG. 2 is a photographic diagram illustrating a finishing work situation, a state after finishing work, and a state after curing and drying according to the present embodiment. FIG. 3 is a table diagram showing the range of penetration resistance values. FIG. 4 is a table diagram showing examples of work time ranges in each season. FIG. 5 is a table diagram showing each work timing and elapsed time (example at 16° C.). FIG. 6 is a table diagram showing an example of differences in work completion time depending on temperature. FIG. 7 is a diagram showing an example of a conventional concrete slab construction procedure. FIG. 8 is a diagram showing the state of a conventional concrete surface. FIG. 9 is a diagram showing an example of conventional condensation test results (at a temperature of 16° C.).

EMBODIMENT OF THE INVENTION Below, the embodiment of the construction method of the concrete structure based on this invention will be described in detail based on drawings, taking the case where a concrete structure is a concrete slab as an example. Note that the present invention is not limited to this embodiment.

The method for constructing a concrete structure according to the embodiment of the present invention is carried out in steps S1 to S5 as shown in FIG.

First, in step S1, concrete is poured to form a concrete slab, and a concrete sample is taken. The penetration resistance value test is started using this sample. This test is conducted in accordance with JIS A 1147 "Concrete setting time test method", and the relationship between elapsed time and penetration resistance value as shown in the measurement example of FIG. 9 is obtained. Note that the sample can be collected, for example, from a concrete mixer truck. For example, samples may be collected from the first car in the morning and the first car in the afternoon on the day of pouring, or only from the first car in the morning. Further, for example, it is also possible to record the number of mixer trucks in which concrete has been placed and in which range, and add up the times calculated from the penetration test. However, it is assumed that the concrete loaded in all mixer trucks is of the same quality (for example, the same hardening speed) to some extent.

Timing is important for the next step, which is the holding down of the hand trowell and riding trowell (presser machine). If the timing is too early, there is a risk that the disc will sink into the concrete or gouge it out, which may impair the smoothness of the concrete.

Therefore, in the next step S2, with a penetration resistance value of 0.5 (N/mm ² ), which is a condition in which a person can stand on the concrete slab, as a guideline, the work of removing the slack using the disc of the hand trowell is started. This roughening work may be started at a time when the penetration resistance value obtained in the penetration resistance value test started in step S1 becomes 0.5 (N/mm ² ), or at a predetermined time before or after this time. You may start within the range. Furthermore, the penetration resistance value to be used as a guideline is not limited to 0.5 (N/mm ² ), but may be set to a penetration resistance value of about 0.4 to 0.9 (N/mm ² ), for example.

In the next step S3, with a penetration resistance value of 2.0 (N/mm ² ) as a guide, the work of removing the slack using a disk of a riding type trowel (presser machine) is started. This is because the disc of a mounted trowel is heavier than the disc of a hand trowel. This roughening work may be started at a time when the penetration resistance value obtained in the penetration resistance value test started in step S1 becomes 2.0 (N/mm ² ), or at a predetermined time before or after this time. You may start within the range. Further, the penetration resistance value to be used as a guideline is not limited to 2.0 (N/mm ² ), but may be set to a penetration resistance value of about 1.7 to 3.2 (N/mm ² ), for example. Although it is desirable to perform steps S2 and S3 in this order in order to improve construction quality, the present invention is not limited to this. For example, step S2 may be omitted and step S3 may be performed, but if it is too early, there is a risk that the riding type trowell (presser machine) will be buried in the concrete, and if it is too late, there is a risk that it will not be possible to sufficiently remove the excess. It is necessary to keep this in mind.

In the next step S4, the first finishing operation is started using a metal trowel of a riding type trowel (presser machine), with a penetration resistance value of 3.5 (N/mm ² ) as a guide. The timing is not strict, but be aware that the disc and trowel have different ground contact areas, which will apply a large force to the concrete surface, so if it is done too early, it will damage the concrete surface. This trowel finishing work may be started at the time when the penetration resistance value obtained in the penetration resistance test started in step S1 becomes 3.5 (N/mm ² ), or before or after this time. It may start within a predetermined range. Further, the penetration resistance value as a guideline is not limited to 3.5 (N/mm ² ), but may be set to a penetration resistance value of about 3.0 to 5.4 (N/mm ² ), for example. The end of this trowel finishing work can be set at about 6.0 (N/mm ² ), for example. In this embodiment, a riding type trowel is used as the presser machine, but the presser machine of the present invention is not limited to this. For example, a presser machine that can weigh about 10 kg to 45 kg per iron trowel can be used. can.

In the next step S5, with a penetration resistance value of 6.0 (N/mm ² ) as a guide, a second finishing operation using a metal trowel of a riding type Trowel and a finishing operation using a Fresno trowel are started. The penetration resistance value of 6.0 (N/mm ² ) is smaller than the penetration resistance value of 28.0 (N/mm ² ), which has been used as a standard for mechanical construction, and the surface is still in a soft state. Therefore, the second finishing work using a metal trowel on a mounted trowell tends to leave traces (semicircular streaks), so if you finish the surface with a Fresno trowel after finishing the trowelled trowel on a mounted type trowell, This is preferable because it provides a finish with no trowel marks. This finishing work may be started at the time when the penetration resistance value obtained in the penetration resistance test started in step S1 becomes 6.0 (N/mm ² ), or within a predetermined range before and after this time. You may start within Further, the penetration resistance value to be used as a guideline is not limited to 6.0 (N/mm ² ), but may be set to a penetration resistance value of about 5.0 to 8.5 (N/mm ² ), for example.

The concrete surface thus finished is cured with water, hardened and dried. After the concrete hardens and dries, the entire surface will turn white, but the surface will be smooth and the result will be a beautiful slab with no uneven color, cracks, or peeling. FIG. 2 shows working conditions of metal trowel finishing and Fresno trowel finishing using the riding type trowell according to the present embodiment, a concrete slab after finishing work, and a concrete slab after hardening and drying.

In this manner, according to the present embodiment, a smooth concrete slab with no color unevenness on the surface can be constructed. Furthermore, the occurrence of defects such as cracking and peeling can be significantly suppressed. Furthermore, since the time required to complete the work can be shortened, the physical and mental burden on the worker can be reduced.

FIG. 3 is a list of the ranges of penetration resistance values that serve as guideline values for starting each work. In the example in the figure, the width is set around the standard penetration resistance value in consideration of the actual work time, but be careful not to work too quickly with a hand trowel or a mounted trowel. is necessary. On the other hand, when finishing the mounted Trowel with a trowel, be careful not to do it too late (or too much). FIG. 4 shows examples of working time ranges at temperatures of 12° C. (winter), 16° C. (intermediate period), and 32° C. (summer) when working within the penetration resistance value range shown in FIG. 3. During the summer, there is only about 15 minutes of work time, so it is necessary to create a work plan that matches the construction area. On the other hand, there is a margin of about 45 minutes during the intermediate season and about 55 minutes during the winter season, but it is preferable to carry out construction as quickly as possible according to the penetration resistance value that serves as a guideline.

In the example of the penetration resistance test results shown in FIG. 9 at a temperature of 16° C. (intermediate period), the elapsed time of each work timing is as shown in FIG. As in the example of the present invention, when finishing with a penetration resistance value of 6.0 (N/mm ² ), the work can be completed in 7 hours and 20 minutes, whereas the conventional mirror finish In the case of 28.0 (N/mm ² ), it takes up to 9 hours and 50 minutes. Therefore, the difference in working time between this embodiment and the conventional method is 2 hours and 30 minutes. As an example, FIG. 6 shows the difference in working time from measurement examples of penetration resistance values at temperatures of 12° C. (winter), 16° C. (intermediate period), and 32° C. (summer). In particular, in the winter when concrete hardens slowly, the difference in work completion time is 3 hours and 7 minutes for penetration resistance values of 6.0 (N/mm ² ) and 28.0 (N/mm ² ), which reduces work time. It can be seen that there is also an advantage in reducing the physical and mental burden on workers.

As explained above, the method for constructing a concrete structure according to the present invention is a method for constructing a concrete structure, in which the penetration resistance value of poured concrete is measured, and the penetration resistance value is based on the measured penetration resistance value. Since the surface of the poured concrete is then finished, it is possible to finish the surface at an appropriate time, reducing the occurrence of uneven coloring, cracking, peeling, etc. on the surface.

Further, according to another method for constructing a concrete structure according to the present invention, a guideline value of penetration resistance at which work is started is set in advance for each type of work for finishing the concrete surface, and the penetration resistance is measured. Since the type of work corresponding to the reference value is started within a predetermined range before and after the time when the value becomes the reference value, each work can be started at an appropriate timing.

In addition, according to another method for constructing a concrete structure according to the present invention, the disc of the hand trowel is used to provide a soft spot within a predetermined range before and after the time when the measured penetration resistance value becomes 0.5 (N/mm ² ). Start the unloading work, and start the unrolling work using the disc of the presser machine within a predetermined range before and after the time when the measured penetration resistance value reaches 2.0 (N/mm ² ), and when the measured penetration resistance value reaches 3. .5 (N/mm ² ), finishing work using the metal trowel of the pressing machine is started within a predetermined range before and after the time when 5 (N/mm 2 ) is reached, so a clean concrete structure with no uneven color, cracks, or peeling on the surface is constructed. be able to.

As described above, the method for constructing a concrete structure according to the present invention is useful for concrete structures that require surface smoothness, such as concrete slabs, and is particularly useful for problems such as surface unevenness, cracking, and peeling. suitable for suppressing the occurrence of

Claims (2)

A method for constructing a concrete structure in which the penetration resistance value of poured concrete is measured and the surface of the poured concrete is finished based on the measured penetration resistance value, the method comprising:
At the time when the measured penetration resistance value becomes 0.4 to 0.9 (N/mm 2 ), the work of removing the excess with the disk of the hand trowell is started, and after that, the measured penetration resistance value becomes 1.7 to 3 ^. 2 (N/mm ² ), a method for constructing a concrete structure is characterized in that the roughening work is started using a disk of a presser machine at a time when the pressure reaches 2 (N/mm 2 ), and the finishing work is then started using a trowel of the presser machine. A method for constructing a concrete structure in which the penetration resistance value of poured concrete is measured and the surface of the poured concrete is finished based on the measured penetration resistance value, the method comprising:
For each type of work to finish the concrete surface, set a guideline value for the penetration resistance value at which the work should start, and set the target value within a predetermined range before and after the time when the measured penetration resistance value reaches the guideline value. shall commence work of the corresponding type;
At the time when the measured penetration resistance value becomes 0.4 to 0.9 (N/mm 2 ), the work of removing the excess with the disk of the hand trowell is started, and after that, the measured penetration resistance value becomes 1.7 to 3 ^. 2 (N/mm ² ), a method for constructing a concrete structure is characterized in that the roughening work is started using a disk of a presser machine at a time when the pressure reaches 2 (N/mm 2 ), and the finishing work is then started using a trowel of the presser machine.

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