JP7061298B2 - Concrete compaction completion judgment method - Google Patents

Description

The present invention relates to a method for determining the completion of compaction of concrete used when compacting fresh concrete.

Normally, when compacting fresh concrete, it is required to remove the air entrained during transportation and driving from the concrete, to make the reinforcing bars and buried objects adhere well to the concrete, and to make the concrete uniform and solid. Generally, compaction of concrete is performed by inserting a vibrator into the concrete driven into the formwork and applying vibration. Further, in this case, the determination of sufficient compaction of concrete, that is, the determination of the completion of compaction, is made by visual determination of the concrete surface by a veteran worker or an engineer. By sufficient vibration compaction, concrete is densely filled to every corner of the formwork and reinforcing bars, and voids such as air bubbles inside and on the surface of concrete are eliminated, resulting in strength, watertightness, and durability. You can make excellent concrete.
Regarding sufficient compaction of concrete, as a general guideline, in the concrete standard specification, "One of the evidences that vibration compaction is sufficient is that a line of cement paste appears on the contact surface between the concrete and the dam. In addition, it can be seen from the fact that the volume of the concrete does not decrease, the surface becomes glossy, and the entire concrete seems to melt uniformly. "

Further, conventionally, Patent Document 1 has proposed a method for compacting concrete for the purpose of ensuring the required quality of cast concrete without being influenced by the personal skill of the worker.
In the concrete compaction method of Document 1, a floating vibrator is installed at the bottom of the concrete formwork to be placed, concrete is placed in the formwork so as to have a predetermined height, and the concrete pressure in the vicinity of the vibrator is placed. By ascending the inside of the concrete upward while vibrating the vibrator according to the above, the cast concrete is compacted from the lower part to the upper part.
In this case, when the concrete to be placed in the formwork reaches a predetermined thickness, the vibrator drives the prime mover by the detection signal of the concrete pressure detected by the pressure sensor, whereby the vibrator vibrates at a predetermined frequency. It compacts the surrounding concrete and reduces the frictional resistance between the vibrator and the concrete. In addition, since the bulk specific gravity of the vibrator is formed to be lighter than the specific gravity of concrete, a known buoyancy is generated in the vibrator as the frictional resistance between the vibrator and concrete decreases, and the vibrator vibrates to tighten the surrounding concrete. Ascends upward while solidifying. Then, when the vibrator is located on the upper surface of the concrete, a detection signal having a concrete pressure of 0 is transmitted from the pressure sensor to the prime mover, the vibrator is stopped, and the compaction of the concrete is completed.
In this way, in this concrete compaction method, by using a floating vibrator, the concrete compaction work can be automated and released from the conventional heavy work, and the degree of concrete compaction becomes a personal skill. Since it is not dependent on it, the reliability of construction can be improved.

Japanese Unexamined Patent Publication No. 4-357274

However, the conventional judgment of the completion of concrete compaction is made by visual judgment of the concrete surface of veteran workers and technicians, and the judgment criteria depend on the experience and skill of workers and technicians. , The number of people who can make an appropriate judgment is limited, and on the other hand, there may be individual differences in the judgment results between workers and technicians, and it is not possible to grasp the propagation status of vibration inside the concrete. There is a problem that the finished quality of concrete may vary.
Further, the concrete compaction method of Patent Document 1 has an advantage in that it is not affected by the individual skill of the worker, but since the vibrator itself floats, the determination of the completion of concrete compaction is made in the concrete. There is a problem that the finish quality of the concrete may vary because the determination is limited to the insertion position of the vibrator and the propagation state of the vibration inside the concrete cannot be grasped in this case as well.

The present invention solves such a conventional problem, and in this type of concrete compaction completion determination method, individual differences such as the experience and skill of workers and engineers are applied to the concrete compaction completion determination method. The purpose is to eliminate it so that anyone can easily and appropriately grasp the propagation state of vibration inside the concrete and easily determine the completion of compaction of the concrete.

In order to achieve the above object, the present invention
It is a concrete compaction completion determination method that determines the completion of concrete compaction when a vibrator is inserted into the concrete driven into the formwork and vibration is applied to compact the concrete.
A floating body that floats in the concrete according to the degree of compaction of the concrete by compaction with the concrete vibrator in the formwork is placed at the bottom of the part where the completion of concrete compaction is to be determined in the formwork before the concrete is poured. After installing, concrete is poured into the formwork from this state, compacted with a vibrator, and the floating of the floating body is judged as the completion of concrete compaction.
The gist is that.
Further, this concrete compaction completion determination method is embodied as follows.
(1) When the place where the completion of compaction of concrete is to be determined is the entire concrete in the formwork, a large number of floating bodies are regularly installed on the entire bottom of the formwork at predetermined intervals.
(2) When the place where the completion of compaction of concrete is to be determined is a part of the concrete in the formwork, a small number of floating bodies are installed in a part on the bottom of the formwork at predetermined intervals.
(3) The floating body includes a hollow structure and is lightweight, which is smaller than the density of the concrete to be driven into the mold, and the surface exhibits a smooth surface having a small frictional resistance with the concrete.

According to the method for determining the completion of compaction of concrete of the present invention, in determining the completion of compaction of concrete when a vibrator is inserted into the concrete driven into the form and vibration is applied to compact the concrete. A floating body that floats in the concrete according to the degree of compaction of the concrete by compaction with the concrete vibrator inside is installed at the bottom of the place where the completion of compaction of the concrete is to be judged in the mold before the concrete is poured. From this state, concrete was poured into the mold, compacted with a vibrator, and the floating of the floating body was judged to be the completion of concrete compaction. Unique to the present invention, it eliminates individual differences such as experience and skill, and anyone can easily and appropriately grasp the propagation state of vibration inside concrete and easily determine the completion of compaction of concrete. It has a special effect.

The figure which shows the concrete compaction completion determination method by one Embodiment of this invention, and in particular, shows the case of determining the compaction completion of the whole concrete in a formwork. A diagram showing a method for determining the completion of compaction of the concrete, and in particular, a diagram showing a configuration of a method showing a case of determining the completion of compaction of a part of the concrete in the formwork. The figure which shows the compaction completion determination method of the concrete, and in particular, shows the case of determining the compaction completion of the upper layer concrete when the upper layer concrete is poured on the lower layer concrete in a formwork.

Next, a mode for carrying out the present invention will be described with reference to the drawings.
FIGS. 1, 2 and 3 show a method for determining the completion of compaction of concrete (hereinafter, may be simply referred to as a determination method).
As shown in FIGS. 1, 2 and 3, this method of completing the compaction of concrete is when a vibrator V is inserted into the concrete C driven into the mold M and vibration is applied to compact the concrete C. In this determination method, the completion of compaction of the concrete C is determined, and in this determination method, the floating body F that floats in the concrete C according to the degree of compaction of the concrete C by compaction by the vibrator V of the concrete C in the mold M is formed. , Installed at the bottom of the place where the completion of concrete compaction is to be determined in the mold M before concrete driving, concrete C is driven into the mold M from this state, compacted by the vibrator V, and the floating body F It is determined that the compaction of concrete C is completed when the concrete C rises.
Further, since the floating body F used in this determination method needs to rise in the concrete due to the vibration of the vibrator V, it contains a hollow structure and is lightweight, which is smaller than the density of the concrete to be driven into the formwork. Therefore, it is preferable that the surface exhibits a smooth surface having a small frictional resistance with concrete. As such a floating body F, a plastic body having a diameter of 35 mm to 45 mm and a weight of 1.5 g to 2.5 g and made of a hollow sphere is preferable. The floating body F made of such a sphere is extremely lightweight, which is smaller than the specific gravity of the concrete to be driven into the formwork. The floating body F is installed at the bottom of the formwork in advance and is driven into the formwork. After the concrete is submerged in the concrete, the vibrator is inserted into the specified position of the concrete so that the vibration of the vibrator propagates to the installation position of the floating body F, and the vibration is applied to tighten the vibration propagation range around the vibrator. To the degree of compaction, in this case, the formwork floats on the surface of the concrete in that range on average, and the surface becomes glossy and glossy, and when the concrete is compacted to the extent that it seems to be uniformly melted, it floats. It has been confirmed by experiments that the body F floats up to the surface of concrete.

In this determination method, before the concrete C is driven into the formwork M, a plurality of floating bodies F are freely placed in a range for determining the completion of compaction of the concrete C on the bottom portion of the formwork M in advance. It may be installed and the normal concrete C compaction work may be performed.

FIG. 1 shows a case where the location where the completion of compaction of the concrete C is to be determined is the entire concrete C in the formwork M. In this case, a large number of floating bodies F are predetermined on the entire bottom portion in the formwork M. It is installed regularly at intervals, for example, in a grid-like (square-like) arrangement. Since the propagation of the vibration of the vibrator V usually extends to the surroundings by about 30 cm, in this case, the floating body F may be arranged so that each square is 50 cm square. In this way, the concrete C is driven into the mold M, and in this case, the vibrator V is inserted into the concrete C at the position corresponding to the center of each square in the grid-like arrangement of the plurality of floating bodies F, and vibration is applied. When the floating body F floats on the surface of the concrete C, the range from the insertion position of the vibrator V of the concrete C to the floating position of the floating body F is a predetermined compaction degree, and in this case, the surface of the concrete C in that range. The mortar floated on average, the surface became glossy and glossy, and it became an index that the concrete C was compacted to the extent that it seemed to be uniformly melted, and it became an index from the insertion position of the vibrator V. It is determined that the range up to the floating position of the floating body F has been compacted, and the vibrator V is pulled out here. Further, in this case, if the degree of rise of the floating body F in the concrete C is grasped, the influence range of the vibrator V can be accurately grasped, and the judgment by integrating the degree of compaction when the insertion position of the vibrator V is changed is determined. Is also possible.

In FIG. 2, when the part where the compaction completion of the concrete C is to be determined is a part of the concrete C in the formwork M, for example, the concrete C including a position where it is difficult to determine the compaction completion of the concrete C. In the case of limiting to the position where compaction management is required, in this case, a small number of floating bodies F are predetermined to a part on the bottom of the formwork M (for example, a position where compaction management is required for concrete C). Install at intervals of. In this way, the concrete C is driven into the mold M, and in this case, the vibrator V is inserted into the concrete C at a position separated from each floating body F by a predetermined distance, and vibration is applied so that the floating body F becomes the concrete C. When it floats on the surface, this becomes an index that the range from the insertion position of the vibrator V of the concrete C to the floating position of the floating body F is compacted to a predetermined degree of compaction, and floats from the insertion position of the vibrator V. It is determined that the range up to the levitation position of the body F is completed, and the vibrator V is pulled out here.

FIG. 3 shows a case where the upper concrete C2 is placed on the lower concrete C1 which has been driven in first and has not yet hardened. In this case, a plurality of floating bodies F are placed on the upper surface of the lower concrete C1 which is the bottom of the formwork M. Install at regular intervals. In this way, the upper concrete C2 is driven into the mold M, the vibrator V is inserted into the upper concrete C2, the tip of the vibrator V is inserted about 10 cm from the upper surface of the lower concrete C1, and vibration is applied to the floating body F. Ascended to the surface of the concrete C2 in the upper layer, the range from the insertion position of the vibrator V of the concrete C2 to the floating position of the floating body F was compacted to a predetermined degree of compaction including the stacking surface. As an index, the range from the insertion position of the vibrator V to the floating position of the floating body F is determined to be compacted including the overlapping surface, and the vibrator V is pulled out here.
In addition, even when concrete is piled up on the existing (already solidified) lower layer concrete, a plurality of floating bodies are similarly installed on the upper surface of the lower layer concrete which is the bottom of the formwork at predetermined intervals. , When concrete is driven into the formwork, a vibrator is inserted into the concrete and vibration is applied, and the floating body floats on the surface of the concrete, this is the range from the insertion position of the concrete vibrator to the floating position of the floating body. As an index of the compaction to the degree of compaction, the range from the insertion position of the vibrator to the floating position of the floating body may be determined as the completion of compaction.

As described above, according to this concrete compaction completion determination method, the concrete C is compacted when the vibrator V is inserted into the concrete C driven into the mold M and vibration is applied to compact the concrete C. In determining the completion of compaction, the floating body F that floats in the concrete C according to the degree of compaction of the concrete C by compaction by the vibrator V of the concrete C in the mold M is placed in the mold M before the concrete is poured. It is installed at the bottom of the place where the completion of concrete compaction is to be determined, and from this state, concrete C is driven into the mold M, compacted with the vibrator V, and when the floating body F floats, the concrete C compaction is completed. Since the judgment is made, individual differences such as the experience and skill of workers and engineers are excluded in the judgment of the completion of compaction of concrete C, and anyone can easily and appropriately grasp the propagation state of vibration inside the concrete C. Therefore, the completion of compaction of the concrete C can be easily determined. Therefore, it is possible to easily engage in the compaction work of concrete.

M Formwork C Concrete C1 Lower layer concrete C2 Upper layer concrete V Vibrator F Floating body

Claims (4)

It is a concrete compaction completion determination method that determines the completion of concrete compaction when a vibrator is inserted into the concrete driven into the formwork and vibration is applied to compact the concrete.
A floating body that floats in the concrete according to the degree of compaction of the concrete by compaction with the concrete vibrator in the formwork is placed at the bottom of the part where the completion of concrete compaction is to be determined in the formwork before the concrete is poured. After installing, concrete is poured into the formwork from this state, compacted with a vibrator, and the floating of the floating body is judged as the completion of concrete compaction.
A method for determining the completion of compaction of concrete. The first aspect of claim 1 is that when the place where the completion of compaction of concrete is to be determined is the entire concrete in the formwork, a large number of floating bodies are regularly installed on the entire bottom of the formwork at predetermined intervals. How to judge the completion of compaction of concrete. The first aspect of claim 1 is that when the place where the completion of compaction of concrete is to be determined is a part of the concrete in the formwork, a small number of floating bodies are installed in a part on the bottom of the formwork at predetermined intervals. How to judge the completion of compaction of concrete. The floating body includes a hollow structure, is lightweight and has a density smaller than the density of concrete driven into the formwork, and has a smooth surface having a small frictional resistance with concrete according to any one of claims 1 to 3. The method for determining the completion of compaction of concrete as described.

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