JPH11123712A - High-fluidity concrete air bubble remover - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a bubble remover for high-fluidity concrete capable of producing a concrete structure having few surface pores. SOLUTION: A bubble remover 10 made of high-fluidity concrete is dropped by its own weight near an inner side surface 11a of a formwork 11, or
At the time of assembling the formwork, it is placed directly in the formwork, and then the high-fluidity concrete 12 is poured into the formwork 11. Then, formwork 1
The bubble removing plate 13 connected by the hinge 14 of the bubble removing device 10 is pressed against the inner side surface 11a of the device 1. Thereafter, before the concrete 12 is hardened, the bubble removing device 10 is gradually pulled up along the inner side surface 11a of the mold 11, and the surface bubbles a attached to the surface of the high-fluid concrete 12 are hinged. It is scraped off by the bubble removing plate 13. Therefore, after demolding, it is possible to manufacture a concrete structure having few surface pores.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a bubble remover for high-fluidity concrete, and more particularly to a bubble remover for high-fluidity concrete for producing a concrete structure having few surface pores.

[0002]

2. Description of the Related Art Generally, when manufacturing various concrete structures, a mold having a predetermined shape is prepared in advance.
Next, concrete is poured into the form, and then the form is vibrated by a vibrator to fill the form with no gap. In addition, the vibration causes bubbles existing in the concrete to escape to the atmosphere from the surface exposed to the outside. As a result, a concrete structure with few internal defects and few surface pores can be obtained. By the way, when the mold is vibrated by the vibrator in this way, a loud vibration sound of the vibrator is scattered around the factory, and a relatively hard work is forcibly performed by the worker. As a result, working with the vibrator may cause the worker to have hearing loss or arthritis, or may cause a noise problem around the factory. In addition, on the other hand, the aggregates and mortar in the concrete are separated by the vibration, and there is a problem in the quality of the concrete that the overall strength of the manufactured concrete structure is not uniform.

[0003] Therefore, conventionally, high fluidity concrete having improved self-compacting property, in which the fluidity of concrete has been enhanced, has been developed. This high-fluidity concrete contains a relatively large amount of a high-performance AE water reducing agent, and if it is poured into the form without vibration, the concrete flows to every corner of the form. As a result, the noise problem around the factory is eliminated, and the worker is not required to perform severe work using the vibrator. In addition, the above-described internal defect of the concrete structure can be easily eliminated. However, it is difficult to remove air bubbles adhering to the poured concrete surface even with such a high fluidity concrete having a self-compacting property. Therefore, many surface pores still appeared on the surface of the concrete structure.

Therefore, as a conventional technique for solving this problem,
There is known a bubble remover for high-fluidity concrete described in the specification of JP-A-7-178711. The conventional bubble removing device is a sheet-like, rod-like, or plate-like object that can be pulled up near the inner surface of a mold. According to this conventional publication, this sheet-shaped, rod-shaped or plate-shaped object is arranged near the inner surface of a mold, and then, after high-flowable concrete is poured into the form, before the high-flowable concrete hardens. Lift this object. Thereby, the concrete in the vicinity of the concrete surface is reflowed to remove the surface bubbles attached to the concrete surface.

[0005]

However, in such a conventional bubble removing device for high-fluidity concrete, for example, in the case of a sheet-like object, the bubble-removing device is thin, so that it cannot withstand the high filling pressure of high-fluidity concrete. It could not be broken and could be torn while being pulled from high-fluidity concrete. Also, in the case of a rod-shaped object, for example, if a mold is used in which a side plate is gradually inclined inward upward, the rod-shaped object is vertically dropped by its own weight and adheres to this concrete surface. There was a problem that surface bubbles could not be removed well. Further, in the case of a plate-like object, for example, the method disclosed in
10, FIG. 12 to FIG. 14 attached to US Pat.
As shown in the figure, since only one object was hung on one string, even if the filling pressure of the concrete was applied to the inner surface of the object, this object could sufficiently adhere to the inner surface of the formwork. In the case of a formwork that can not be performed and the side plate of the formwork is similarly inclined inward,
There is a problem that the object hangs vertically.

[0006]

SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide a bubble remover for high-fluidity concrete capable of producing a concrete structure having a small number of surface pores. Another object of the present invention is to provide a bubble remover for high-fluidity concrete that can remove surface bubbles over a wide range according to the shape of the inner surface of a mold. Further, another object of the present invention is to provide a bubble remover for high-fluidity concrete, which can remove surface bubbles over a wide range without leaving any residue. An object of the present invention is to provide a bubble remover for high-fluidity concrete that can be easily pulled out of a mold.

[0007]

According to the first aspect of the present invention, the high-fluidity concrete poured into the mold is lifted along the inner surface of the mold before hardening. In a bubble remover for high fluidity concrete that removes surface bubbles attached to the surface of fluidized concrete,
A bubble remover for high-fluidity concrete, comprising: a plurality of bubble remover plates; and a hinge for connecting adjacent bubble remover plates rotatably in a vertical plane. The high fluidity concrete referred to here is a concrete having a high fluidity and a self-compacting property obtained by adding a relatively large amount of a high-performance AE water reducing agent to Portland cement. As an example of a concrete concrete composition, ordinary Portland cement 371
kg / m ³ , water 175 kg / m ³ , fine aggregate 681 kg / m
³ , coarse aggregate 1060 kg / m ³ , thickener 3 kg / m ³ , high-performance AE water reducing agent 6.3 kg / m ³ .

The shape of the mold is not limited, of course. For example, a mold having a tapered side plate gradually inclined inward as going upward, or a circular or elliptical mold in plan view may be used. Examples of the material of the bubble removing plate include various metals such as stainless steel and hard aluminum, various synthetic resins such as polypropylene, polyethylene and polystyrene, and various woods such as Rawan, pine, cypress and cedar, or alumina, zirconia, zircon, Various ceramics such as chromia are included. Also, the thickness and size of the bubble removing plate are not limited. However, when the thickness is about 1 to 5 mm, when the concrete is pulled out from the poured concrete, it is not so heavy and can be satisfactorily pulled without being damaged by the load at the time of pulling.

The type of hinge is not limited. For example, a sinking hinge, a mounting hinge, a hidden hinge, a matching hinge, a spring hinge, or the like may be used. Further, the material of the hinge is not limited. For example, metals such as stainless steel and brass, various plastics, various woods, and various ceramics may be used. The bubble remover made of high-fluidity concrete may be lifted up using a hanging member such as a rope, or may be directly lifted by directly grasping the uppermost bubble remover plate exposed from the surface of the concrete. This lifting may be performed manually or by using, for example, a winch or a lifting crane.

According to a second aspect of the present invention, there is provided a high-fluid concrete bubble removing device according to the first aspect, wherein each of the bubble removing plates is connected in a horizontal and vertical direction by a hinge in a matrix. The size of the air bubble removal plates connected in a matrix may be, for example, the entire area of one side plate of the mold or a part thereof, the entire area of a plurality of side plates or a part thereof, or the size of all the side plates of the mold.

According to a third aspect of the present invention, the air bubble removing tool of the high fluidity concrete according to the second aspect, wherein the air bubble removing plates connected in a matrix are arranged in a staggered manner in a vertical direction. It is.

According to a fourth aspect of the present invention, at least the concrete-side surface of the bubble removing plate is coated with a release agent.
It is a bubble removal tool of the high fluidity concrete of paragraph. Examples of the release agent include a fluororesin and a mineral oil.

[0013]

According to the present invention, a bubble remover made of high-fluidity concrete is placed in the vicinity of the inner surface of the form under its own weight, or placed directly in the form when assembling the form. Pour highly fluid concrete into the interior. This allows
Each bubble removing plate connected by the hinge of the bubble remover made of high-fluidity concrete is pressed against the inner surface of the formwork. After that, before the concrete hardens, the bubble remover of the high-fluidity concrete is gradually pulled up along the inner surface of the form, and the surface bubbles existing on the concrete surface in a state almost in contact with the form are scraped off. So after demolding,
It is possible to manufacture a concrete structure having few surface pores.

In particular, according to the second aspect of the present invention, since the bubble removing plates are connected in a matrix in the horizontal and vertical directions by the hinge, the bubble removing plates connected vertically and horizontally can be slowly moved. By pulling up at once,
Surface bubbles adhered to the concrete surface can be removed according to the shape of the inner surface of the formwork and over a wide range.

According to the third aspect of the present invention, after pouring concrete into the mold, the matrix-shaped air bubble removing plates arranged in a staggered manner are pulled up along the inner surface of the mold. Of the surface bubbles adhering to the concrete surface, not only the portions in contact with the bubble removal plates arranged at each stage connected by hinges, but also the surface bubbles remaining between the bubble removal plates arranged at each stage, It is scraped off by a bubble removing plate arranged in a zigzag manner below it. As a result, surface bubbles can be removed over a relatively wide area without any residue.

Further, according to the invention described in claim 4,
Since the release agent is coated on at least the concrete side surface of the bubble removal plate, when pulling up the foam removal tool of high-fluidity concrete from within the mold, the resistance when pulling up from inside the high-fluidity concrete is compared. This makes it possible to pull up the bubble remover of the high-fluidity concrete with relatively little force.

[0017]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS First, a bubble remover for high-fluidity concrete according to a first embodiment of the present invention will be described with reference to FIGS. FIG. 1 is a perspective view of a high fluidity concrete air bubble removing device according to a first embodiment of the present invention in use. FIG. 2 is a sectional view of the same use state. FIG.
FIG. 2 is a partially enlarged front view of the bubble remover of the high-fluid concrete. FIG. 4 is an explanatory diagram during removal of surface bubbles attached to the concrete surface in contact with the formwork. FIG. 5 is a cross-sectional view of a used state of a bubble remover for high-fluidity concrete used for another formwork.

In FIGS. 1 and 2, reference numeral 10 denotes a bubble remover for high-fluidity concrete. The bubble remover 10 for high-fluidity concrete before the high-flowable concrete 12 poured into the mold 11 hardens. , Inner surface 11 of form 11
The bubbles attached to the surface of the high-fluidity concrete 12 are removed by being pulled up along the line a. Here, three pieces are arranged in parallel for each one of the inner surfaces of the rectangular box-shaped formwork 11. The mold 11 has a vertical and horizontal height of 1,000 ×
It is a 2,000 × 1,000 mm formwork. This formwork 1
1 is a steel plate material. As the high fluidity concrete 12, ordinary Portland cement 400 kg / m ³ , blast furnace slag powder 160 kg / m ³ , water 168 kg / m ³ , fine aggregate 804 kg / m ³ , coarse aggregate 904 kg / m ³ , high performance A
E The water reducing agent having a composition of 8.96 kg / m ³ is employed.

As shown in FIGS. 3 and 4, the bubble removing tool 10 made of high-fluidity concrete can rotate the upper and lower three bubble removing plates 13 and the adjacent bubble removing plates 13 in a vertical plane. And a hinge 14 connected to the Each bubble removing plate 13 is a metal plate having dimensions of 100 mm in length, 200 mm in width, and 3 mm in thickness. Further, a ring portion 13b for hanging the wire 15 is fixed to the center of the upper surface of the bubble removing plate 13 at the uppermost stage. Each air bubble removal plate 1
Mineral oil, which is an example of a release agent, is applied to each of the third concrete side surfaces 13a. In addition, each hinge 14
In this example, a pair of blades 14a such as blades are screwed to the inner surfaces of the ends on the butting side of the bubble removing plates 13 adjacent vertically.

Next, a method of using the high-fluidity concrete air bubble removing device 10 will be described. First, as shown in FIG. 1 and FIG. 2, a bubble remover 10 made of high-fluid concrete is placed near an inner surface 11 a of a mold 11.
Are arranged in parallel with each other (drop by their own weight,
Or, it is arranged directly in the mold when assembling the mold). At this time, the bubble remover 10 of each high-fluidity concrete is hung from the ceiling via the ring portion 13b and the wire 15. Next, the high fluidity concrete 12 is placed in the formwork 11.
Pour in. As described above, when the high-fluidity concrete 12 is poured, the filling pressure causes the three-stage upper and lower air bubble removing plates 13 of the high-fluidity concrete bubble remover 10 near each inner side surface 11a of the formwork 11 to move. , Is pressed against the corresponding inner side surface 11 a of the mold 11. At this time, many small surface bubbles a exist on the surface of the high fluidity concrete 12. If left as it is for a while, the high fluidity concrete 12 starts to harden.

Thereafter, before the high-fluidity concrete 12 hardens, each wire 1 is gradually reduced using an overhead crane (not shown).
5 is lifted, while the bubble remover 10 of each high-fluidity concrete is pressed against the inner surface 11a,
Pulled up slowly. As a result, the surface bubbles a attached to the surface of the high-fluid concrete 12 are scraped off by the three bubble removing plates 13 that move upward in a series.
In addition, the surface bubbles a are sequentially removed between the upper and lower bubble removing plates 13 slightly apart from each other by the upper bubble removing plate 13 without being sufficiently scraped off.
Is scraped off by the upper edge of the lower bubble removing plate 13, so that the surface bubbles a adhered to the surface of the high fluidity concrete 12 can be scraped off satisfactorily. As a result, it is possible to manufacture a concrete structure having few surface pores after demolding.

Moreover, since the concrete side surface 13a of the bubble removing plate 13 is coated with mineral oil as a release agent, the mold 11 of the bubble removing device 10 for high-fluidity concrete is used.
When pulling up from within, with a relatively small lifting resistance,
This bubble removing tool 10 can be pulled up. Also,
In the bubble remover 10 of high-fluidity concrete, the upper and lower adjacent bubble removers 13 are provided so as to be rotatable in a vertical plane via hinges 14, respectively. For example, as shown in FIG. Even with the mold 11A whose inner surface 11b is gradually inclined upward, the high-flow concrete 12 poured into the mold 11 allows the air-removing plates 13 of the sufficiently high-flow concrete bubble removing device 10 to be removed from the mold 11A. Inner surface 1
1a. As a result, even with the mold 11A having such a tapered inner surface 11a, the surface bubbles a attached to the inner surface 11a can be scraped off satisfactorily.

Next, a bubble remover for high-fluidity concrete according to a second embodiment of the present invention will be described with reference to FIGS. FIG. 6 is an enlarged front view of the high-fluid concrete air bubble removing device according to the second embodiment of the present invention. FIG.
It is a top view of the use state of the bubble removal tool of the high fluidity concrete used for the circular form in planar view. FIG. 8 is an enlarged front view of the high-fluidity concrete air bubble remover in which the air bubble removal plates are arranged in a staggered manner. As shown in FIG. 6, the bubble remover 20 for high-fluidity concrete according to the second embodiment includes:
The bubble removing plates 13 are connected in a matrix in the horizontal and vertical directions by hinges 14 and 14A.

By arranging the bubble removing plates 13 in a matrix as described above, the bubble removing plates 13 connected vertically and horizontally are slowly pulled up, so that the surface bubbles a attached to the surface of the high-fluid concrete 12 are once removed. Can be widely removed. Moreover, since the adjacent columns of air bubble removing plates 13 are flexibly connected to each other by the hinges 14A, not only the rectangular molds 11 and 11A in plan view as shown in FIGS. The present invention can also be applied to a mold 11B having a circular shape in plan view as shown in FIG. That is, this is because the bubble removing plates 13 arranged in each column can be bent following the curved inner peripheral surface 11c of the mold 11B.

As shown in FIG. 8, the air bubble removing plates 13 connected in a matrix may be arranged in a staggered manner in the vertical direction. When the bubble remover 30 made of high-fluid concrete thus constructed is pulled up, for example, along the inner side surface 11a of the form 11, the surface bubbles a remaining between the bubble removers 13 connected by the hinges 14A are sequentially removed. It is scraped off by the bubble removing plate 13 arranged below. Therefore, the surface bubbles a of the high-fluidity concrete 12 can be removed in a relatively wide range without leaving any residue. The upper and lower air bubble removing plates 13 are connected to each other by a relatively small hinge 14B. Other configurations, operations, and effects are the same as those in the first embodiment, and thus description thereof is omitted.

[0026]

According to the present invention, since the adjacent bubble removing plates are rotatably connected to each other in a vertical plane by a hinge to provide a bubble remover for high-fluidity concrete, before the concrete is hardened, By pulling up this bubble removing tool along the inner surface of the mold, it is possible to satisfactorily scrape the bubbles attached to the concrete surface. As a result, it is possible to manufacture a concrete structure having few surface pores.

In particular, according to the second aspect of the present invention, since the respective bubble removing plates are connected in a matrix in the horizontal and vertical directions by the hinges, when the bubble removing plates connected vertically and horizontally are pulled up. The surface bubbles can be removed over a wide range while following the shape of the inner surface of the mold.

According to the third aspect of the present invention, the air bubble removing plates connected in a matrix are arranged in a zigzag manner in the vertical direction. When lifting the bubble remover of fluidized concrete, the surface bubbles of the concrete remaining in the gap between the adjacent bubble remover and another column of bubble remover are scraped by the alternately disposed bubble remover below. Can be taken. As a result, surface bubbles can be removed over a relatively wide area without any residue.

Further, according to the fourth aspect of the present invention,
Since the release agent is coated on at least the concrete side of the bubble removal plate, the lifting resistance with the concrete is relatively small when lifting the bubble removal tool of high-fluid concrete from the inside of the formwork. It is possible to pull out the bubble remover of high-fluidity concrete with a relatively small force.

[Brief description of the drawings]

FIG. 1 is a perspective view of a high-fluidity concrete air bubble remover according to a first embodiment of the present invention in use.

FIG. 2 is a cross-sectional view of the use state of the high-fluidity concrete air bubble remover according to the first embodiment of the present invention.

FIG. 3 is a partially enlarged front view of a bubble remover for high-fluidity concrete according to the first embodiment of the present invention.

FIG. 4 is an explanatory view during removal of air bubbles adhering to the concrete surface in contact with the formwork by the high-fluid concrete air bubble removing tool according to the first embodiment of the present invention.

FIG. 5 is a cross-sectional view of the use state of the high-fluidity concrete air bubble remover used for another formwork according to the first embodiment of the present invention.

FIG. 6 is an enlarged front view of a bubble remover for high-fluidity concrete according to a second embodiment of the present invention.

FIG. 7 is a plan view showing a use state of a bubble remover for high-fluidity concrete used for a circular form in plan view according to a second embodiment of the present invention.

FIG. 8 is an enlarged front view of a bubble remover for high-fluidity concrete in which bubble removers according to a second embodiment of the present invention are arranged in a staggered manner.

[Explanation of symbols]

 10, 20, 30 Bubbles remover for high-fluidity concrete, 11 Formwork, 11a Inner surface, 12 High-fluidity concrete, 13 Bubble removal plate, 13a Concrete side surface, 14, 14A, 14B Hinge, a Surface bubble.

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Hisanori Hirata 1-1, Donanmachi, Yawatanishi-ku, Kitakyushu-city, Fukuoka Prefecture Inside the Cement Development Center, Mitsubishi Materials Corporation (72) Inventor Atsumoto Ueda Yawatanishi-ku, Kitakyushu-shi, Fukuoka No. 1-1 Tonanmachi Mitsubishi Materials Corporation Cement Development Center

Claims (4)

[Claims] 1. Before the high-fluidity concrete poured into the form is hardened, the high-flowability concrete is lifted up along the inner surface of the form to remove surface bubbles attached to the surface of the high-flowability concrete. What is claimed is: 1. A bubble remover for fluidized concrete, comprising: a plurality of bubble remover plates; and a hinge for rotatably connecting adjacent bubble remover plates in a vertical plane. 2. The bubble remover for high-fluidity concrete according to claim 1, wherein each of the bubble removing plates is connected by hinges in a matrix in the horizontal direction and the vertical direction. 3. The high-fluidity concrete air bubble removing device according to claim 2, wherein the air bubble removing plates connected in a matrix are arranged in a staggered manner in a vertical direction. 4. A mold release agent is coated on at least the concrete side surface of the air bubble removing plate.
The bubble remover for high-fluidity concrete according to any one of claims 1 to 3.