JPH0291355A - Concrete form - Google Patents

Abstract

PURPOSE:To obtain a high-strength, high-quality concrete structure by adhering a permeable sheet on the inner surface of a form body, and on the inside surface thereof, detachably arranging a metal plate in which a great number of small holes are formed. CONSTITUTION:A metal form 1 is a form of a bubble-included lightweight metal plate, and a permeable sheet 2 is a woven fabric or unwoven fabric having a good permeability. And a metal plate 3 is a metallic plate in which a great number of small holes 3a or slits are regularly formed. On both sides of the plate 3, folded parts 3b are formed, and the plate 3 is placed on the inner side in such a state that the permeable sheet 2 is sandwiched to complete the setting of the form. And surplus water or bubbles are discharged to the outside weaving through the gaps between aggregates 5 and the plate 3 and passing through the permeable sheet 2. Thus, separation of concrete after hardening can be easily carried out, and the smooth surface can be obtained after separation.

Description

Detailed Description of the Invention (Industrial Application Field) The present invention relates to a formwork for concrete, and in particular to a formwork for concrete that is capable of simultaneously improving the surface condition of poured concrete after hardening and its curing condition. Concerning formwork.

(Prior Art) As is well known, extra water is added to concrete poured when constructing a concrete structure to ensure workability.

The excess water added in this manner is removed when concrete is poured into the formwork due to the difference in specific gravity between cement, aggregate and water.

However, the water separated after pouring collects on the formwork surface with air bubbles, which causes so-called avatars to occur on the hardened concrete surface.

Concrete structures with such avatars not only lose their aesthetic appearance but also cause cracks.

In addition, excess water that collects at the interface between the poured concrete and the formwork increases the water-cement ratio of the concrete in this area, reducing the strength and durability of the concrete after hardening and causing deterioration due to salt damage, etc. hasten the

Therefore, as a method to solve this kind of problem, for example, Japanese Patent Application Laid-Open No. 60-43582, 1987 Concrete Engineering Annual Papers 91 ([1054] As disclosed in the Physical Properties Improvement Method, a method has been proposed in which a water-permeable or water-absorbing sheet is attached to the surface of the formwork that the concrete to be poured comes into contact with, and these sheets can remove separated water. Alternatively, by absorbing water, the above-mentioned problems can be solved.

In other words, in the former method, a sheet made of porous material is attached to the inside of the formwork, and excess water is actively drained through the sheet from the time the concrete is poured to the time it hardens, thereby reducing the amount of concrete at the interface. This is an attempt to prevent deterioration.

In the latter method, a sheet made of fiber material impregnated with a superabsorbent polymer is pasted on the inside of the formwork, and excess water from poured concrete is absorbed by the superabsorbent polymer to remove avatars. be.

(Problems to be Solved by the Invention) However, these construction methods have the following problems.

First, with the former, if a sheet of porous material is left in contact with concrete for a long period of time, cement particles in the concrete will enter the porous areas and harden, making the sheet extremely difficult to remove after curing. Ta.

On the other hand, if the sheet was removed early before curing was completed, there was a problem that the concrete could not be cured sufficiently.

In other words, when curing concrete, maintaining a moderately moist state has greater strength than curing in air.
If the sheet is removed early, the curing period in the air will be longer and the concrete will not be able to develop sufficient strength. In addition, this type of sheet has a large degree of opening and continuously removes moisture, so even if it is left in contact with a concrete surface for a long period of time, it is difficult to cure it in an appropriately moist state.

On the other hand, according to the latter, which uses a super absorbent polymer,
In reality, the surplus water was not absorbed as much as expected, and the absorbed polymer gelled and closed the voids in the fiber material, so the surplus water was not sufficiently drained, and the concrete strength was not sufficiently developed as described above. There was a problem that I couldn't do it.

This invention was developed in view of the above-mentioned problems. It is possible to cure concrete in a wet state while securing the moisture necessary for hardening concrete, and it can be easily removed from the mold after concrete has hardened. The purpose of the present invention is to provide a formwork for concrete that can be used for other purposes by removing adhering concrete.

(Means for Solving the Problems) In order to achieve the above object, the present invention includes a water-permeable sheet attached to the inner surface of the formwork body, and a water-permeable sheet that is removably arranged on the inner surface of the water-permeable sheet and attached to poured concrete. It consists of a metal plate that is in direct contact with the sheet, and the metal plate has a structure in which a large number of pores are formed to communicate between the concrete surface and the water-permeable sheet.

Further, in the present invention, the pores of the metal plate can be configured to expand from the contact surface side to the concrete toward the water-permeable sheet side.

(Function) According to the concrete formwork with the above configuration, the pores of the metal plate are blocked by the aggregate in the concrete, but lateral pressure acts on the formwork due to the weight of the poured concrete. Due to this pressure, excess water threads through the gap between the aggregate and the metal plate, passes through the pores, reaches the water-permeable sheet, and is discharged from the water-permeable sheet to the outside.

As the poured concrete gradually hardens and the lateral pressure against the formwork decreases, the pores in the metal plate are blocked by aggregate, so drainage also decreases accordingly, allowing the moisture required for concrete to harden. is ensured. At the same time, contact with air is blocked by the metal plate itself, allowing for curing in a wet state.

The metal plate is smooth and can be easily removed even after the concrete has sufficiently hardened, and after removal, it can be washed with water and reused.

In addition, by widening the cross section of the pores toward the water-permeable sheet side, aggregates, etc. do not pass through the pores, and only excess water can be drained and removed. Particles can be easily removed.

(Example) Hereinafter, an example of the present invention will be described in detail using the drawings.

1 to 3 show a formwork according to the invention.

This formwork consists of a metal form 1 formed into a panel shape constituting the formwork body, a water-permeable sheet 2 installed on the inner surface of the metal form 1, and a metal plate removably arranged on the inner surface of the water-permeable sheet 2. It consists of 3.

The metal form 1 is a lightweight metal plate containing air bubbles formed to a predetermined thickness and size as a formwork material that can be used in place of the water-resistant plywood board conventionally used as a formwork.

The water-permeable sheet 2 is a woven fabric or non-woven fabric having good water permeability and a predetermined thickness, and is made of, for example, a non-woven fabric made of a blend of polyester and rayon.

The metal plate 3 is a metal plate having a thickness of 0.3 to 1.0 mm, and circular pores (or slits) 3a are regularly formed at intervals of 0.5 to 3.5 fins. As shown enlarged in FIG. 2, the holes 3a have a diameter of 0.1 to 1.0 fins on the contact surface side with the concrete, and expand from there to 0.3 to 1.0 fins on the side of the water permeable sheet 2. It has a diameter of 3.0 sm.

In other words, the diameter on the concrete side was set to the above value because it was set smaller than the average particle size of the fine aggregate used in the concrete to be placed, and larger than the maximum particle size of cement.

Further, for this type of hole machining, for example, punching or laser machining is used.

Fold-in portions 3b with spring properties are formed on both sides of the metal plate 3, and the water-permeable sheet 2, which is cut to a size slightly larger than the area of the metal foam 1, is installed between the metal foam 1 and the By fitting the folded portions 3b into both sides of the metal form 1, the water-permeable sheet 2 is supported by the metal form 1 with a spring, and the setting of the formwork is completed.

The above formwork is assembled with the metal plate 3 inside depending on the shape of the intended concrete structure.

Note that a release agent or the like is spray applied to the surface of the metal plate 3 as necessary. When treated in this way, it becomes easier to peel off than the concrete surface after curing.

When concrete 4 is placed inside the assembled formwork, it is compacted by the lateral pressure and the vibrator.

By placing the concrete 4, the pores 3a will be closed relatively quickly by the aggregate 5 in the concrete 4, but the placed concrete has its own weight,
This acts as lateral pressure against the formwork.

Due to this pressure, excess water or air bubbles weave through the gap between the aggregate 5 and the metal plate 3, reach the water-permeable sheet 2 through the pores 3a, and exit through the water-permeable sheet 2 to the outside, as shown by the arrow in FIG. It is discharged.

When the poured concrete 4 gradually hardens and the lateral pressure against the formwork decreases, since the pores 3a of the metal plate 3 are blocked by the aggregate 5, drainage also decreases accordingly, and the concrete 4 gradually hardens. The moisture necessary for curing is secured. Moreover, at the same time, contact with air is blocked by the metal plate 3 itself, and curing can be performed in a wet state.

After curing is completed, the formwork will be demolded.

Since the metal plate 3 is smooth, it can be easily peeled off even after the concrete 4 has sufficiently hardened.

After peeling off, by washing the metal plate 3 with water, concrete residue adhering to the surface can be removed, the metal plate 3 can be reused, and a new water-permeable sheet 2 can be placed between it and the metal form 1. Complete the set while holding it in place.

In addition, although the case where metal form was used as a formwork body was demonstrated in the said Example, it goes without saying that the water-resistant plywood board used normally may be sufficient.

(Effects of the Invention) As described above in detail through the examples, in the concrete formwork according to the present invention, it is easy to peel off the concrete after hardening, and the surface of the concrete after peeling is also in a smooth state. .

Further, after removing excess water and air bubbles, curing can be performed in a wet state, so that a high-strength and high-quality concrete structure can be obtained.

Further, according to the present invention, the metal plate separated from the concrete structure can be repeatedly used and repurposed by cleaning it, and is also easily adaptable when metal form is used as the formwork body.

In addition, by configuring the cross section of the pores to expand toward the permeable sheet side, aggregate, etc., do not pass through the pores, and only excess water can be effectively drained away, and the finished concrete structure can give a smooth surface.

[Brief Description of the Drawings] Fig. 1 is an exploded perspective view of a concrete formwork according to the present invention, Fig. 2 is an explanatory view showing concrete being placed inside the formwork, and Fig. 3 is an explanatory diagram showing the state in which concrete is poured into the formwork. It is an explanatory view of a drainage state. 1... Metal form (formwork body) 2...
...Water permeable sheet 3...Metal plate 3a
...m Hole 4 --- Concrete 5 ---
・Aggregation material

Claims (2)

[Claims] (1) It consists of a water-permeable sheet affixed to the inner surface of the formwork body, and a metal plate that is removably placed on the inner surface of the water-permeable sheet and comes into direct contact with the poured concrete.
A formwork for concrete, characterized in that the metal plate has a large number of pores that communicate between the concrete surface and the water-permeable sheet. (2) The concrete formwork according to claim 1, wherein the pores of the metal plate widen from the contact surface side with the concrete toward the water-permeable sheet side.