JPS6018629B2 - Concrete curing mat and concrete pouring method - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a concrete pouring method using a concrete curing mat used for curing concrete.

As a means to obtain high-quality concrete structures, the minimum amount of water and
It is possible to use concrete IJ with a cement ratio and provide sufficient curing.

The present invention relates to a concrete curing mat that enables curing of such high-quality concrete, and a concrete pouring method using the mat.The mat can be attached to a formwork or laid on a concrete surface. By spreading it out and using it, the water-absorbing polymer in the L mat will strongly suck up excess water in the concrete, reducing the water/cement ratio of the concrete, and curing that water mainly through the action of the water-absorbing polymer. It satisfies the curing conditions of concrete by keeping it in the mat for a long time. Concrete is made up of cement, water, Itoda aggregate, coarse aggregate, and admixtures, but when the amounts of cement, woven aggregate, coarse aggregate, and admixtures are constant, the strength of concrete is equal to that of water and admixtures. It has a logarithmic relationship with the cement ratio, and as the water/cement ratio decreases, the concrete IJ cement strength increases. Concrete mixes normally used in construction work have a water/cement ratio of 45 to 70.
%, but this ratio is mainly determined by workability, and as long as workability is ensured, the smaller the water/cement ratio is, the more advantageous it will be in terms of strength. Vacuum construction is a construction method that takes advantage of this fact. In other words, this uses vacuum pressure to remove some of the water from the concrete after pouring, reducing the water/cement ratio and increasing early strength and final strength. However, this method has the drawback of requiring special molds, vacuum pumps, etc. and is quite expensive. Next, regarding curing of concrete, when the surface of concrete that has started to set is exposed to sunlight or wind, moisture evaporates rapidly from the surface, and moisture cannot be replenished from other parts in time, causing cracks. Furthermore, the hardening process of concrete at a depth of several meters from the concrete surface is impaired and the strength decreases significantly.
A very harmful phenomenon occurs in terms of quality. Therefore, conventionally, in order to maintain the quality of concrete and prevent rapid water evaporation from the surface of concrete, (a) rather, a water-retaining material such as linen cloth, wood flour, cotton mat, or foamed synthetic resin is spread.

'b} Spray a film-forming polymer agent to form a film.

Alternatively, cover the concrete surface with an impermeable sheet material. Such methods are being used.

However, just by storing water in the gaps of the water-retaining material 'a', the amount of water retained is only about 2 times the weight of the village, and furthermore, this is easily absorbed by pressure, evaporation, etc. There are disadvantages such as the need for frequent watering during curing due to water separation. Moreover, the material [b} does not have a water-holding capacity by itself, but only has the function of reducing the degree of evaporation from the concrete surface. The present invention was made from the above-mentioned viewpoint, and an object of the present invention is to provide a concrete curing mat that can eliminate the drawbacks of conventional concrete curing methods.

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 shows a cross section of the curing mat of the present invention. The main body of this mat is made of a nonwoven fabric 1. The outer part la of the nonwoven fabric 1 has a porosity of 4.0%, and the inner part lb has a large porosity. .
Usually, the outermost porosity is the minimum, and the porosity increases toward the inside. Then, the water-absorbing polymer 2 is interposed inside the nonwoven fabric 1, which has different porosity on the outside and inside. This water-absorbing polymer 2 is usually preferably distributed in the middle of the nonwoven fabric 1, but it may of course be placed in other positions. The material for the nonwoven fabric 1 is preferably polypropylene, which is a heat-fusible conjugate fiber, but nylon, rayon, acrylic, and the like may also be used.

Further, the porosity of the nonwoven fabric 1 can be freely adjusted between 0 and 98%, but as an example of the density gradient of the nonwoven fabric 1 of the mat of the present invention, the porosity of the outer part la is 60 to 80%. The porosity of the inner part lb is 85 to 97%.

Water-absorbent polymers 2 include vinyl alcohol-acrylic acid copolymers, polyacrylic acid-based, starch-graft polymerized systems, cellulose-graft polymerized systems, carboxymethylated polysaccharide-based, etc. Any type of vinyl alcohol-acrylic acid copolymer (product name: Sumikagel, (manufactured by Sumitomo Chemical) is suitable. It is desirable to change the amount of this water-absorbing polymer depending on the water/cement ratio or slump of the concrete, but
For ordinary concrete with a thickness of ~15 cm, 50 m/m is sufficient.

The dimensions of the mat of the present invention are, for example, the length of the cloth, 30 mm, and the thickness of about 5 mm, but the length and thickness can easily be changed.

The thickness can be changed depending on the curing conditions of the concrete, but the standard thickness is about 5 ribs for summer curing, and about 1 rib for winter curing, taking heat retention into consideration. The amount of nonwoven fabric used is approximately 300 ta' when the thickness of the mat is 5. The reason why the porosity of the nonwoven fabric 1 of the mat of the present invention is increased in the center is mainly to reduce the obstruction of the water absorption expansion of the water absorbent polymer 2 by the fibers of the nonwoven fabric 1, and to increase the thickness. The reason why the void in the outer portion la is made small is to close the gap and prevent the water-absorbing polymer 2 from dissipating.

That is, the water-absorbing polymer 2, which is a vinyl alcohol-acrylic acid copolymer, becomes a spherical body by absorbing water, but its water absorption capacity changes depending on the confining pressure of the water-absorbing polymer, as shown by curves a and b in FIG. In order to increase the amount of water absorbed, it is necessary to reduce the confining pressure.

In the mat of the present invention, even when the water-absorbing polymer has absorbed maximum water, the expansion is hardly hindered by the fibers of the nonwoven fabric.

Furthermore, since the surface of the mat of the present invention has a high fiber density and is smooth, it has good releasability from concrete after concrete curing.

Furthermore, in order to further improve the releasability, it is also possible to apply a release agent to the surface of the nonwoven fabric or to perform calendar processing. Furthermore, the mat of the present invention may be mixed with a reactive agent that can change color or be colored so that the degree of water absorption can be determined with the naked eye.

Figure 3 shows an example of the method for producing the concrete curing mat of the present invention, in which 1 is a nonwoven fabric of uniform density, 1' is a reel on which the nonwoven fabric 1 is wound, 2 is a water-absorbing polymer, and 3 is the reel on which the nonwoven fabric 1 is wound. A water-absorbing polymer dispersion drum, 4 a vacuum suction device, 5 a guide roller, 6 a heating and pressing roller, 7 and 8 cooling rollers, 9 and 1 river guide rollers, 1
1 is a winding roller for the curing mat of the present invention.

That is, with such a device, two sheets of nonwoven fabric 1 of uniform density are pulled out from the upper and lower positions, and after the water-absorbing polymer 2 is sprinkled on the nonwoven fabric 1 in the middle, passed between heated pressure rollers 6, and then passed through a cooling roller. If you cool it for 7 minutes,
The porosity of the outer part is 4.0%, and the porosity of the inner part is large.
In addition, the concrete curing mat of the present invention in which the water-absorbing polymer 2 is distributed in the middle is obtained.

The mat of the present invention is composed of a non-woven fabric 1 with different porosity and a water-absorbing polymer 2. The water-retaining amount of the non-woven fabric 1 is not much different from that of ordinary mats, but the water-retaining amount of the water-absorbing polymer 2 is as shown in line A in Figure 4. As shown by line B, the absorbency for tap water is approximately 30 ph of its own weight, and for cement water, as shown by line B, it exhibits extremely high water absorption of approximately 5 ph of its own weight, and it also has a very high water absorption capacity due to pressure and pressure. The water repellency due to evaporation is also small as shown in Table 1.

Table 1 This table shows the results of experiments on the water retention properties of Sumitomo Chemical's water-absorbing polymers and pulp using pure water under pressure. , is the numerical value after multiplying each gravity (G).

Furthermore, since the water absorption and water separation reactions of the water-absorbing polymer used in the mat of the present invention are reversible reactions, the mat of the present invention can be used repeatedly.

When the mat of the present invention with these characteristics is attached to the inside of a formwork and concrete is poured, or when it is spread over the surface of the concrete after pouring, the water-absorbing polymer rapidly absorbs excess water in the concrete. It absorbs water, and as a result, it is the same as pouring concrete with a water-to-cement ratio of 4, and the strength of the resulting concrete becomes stronger. Furthermore, the absolute value of the water retention amount of the mat of the present invention is several times that of conventional products, and furthermore, the water absorbed by the water-absorbing polymer is difficult to evaporate, so the mat of the present invention can be maintained in a moist state for a long period of time.

As a result, the concrete surface on which it is poured is also kept moist. If the mat dries out due to high evaporation due to high temperatures, wind, etc., it can be easily re-moistened by sprinkling water on the mat. Furthermore, if it is expected that the amount of evaporation will be large from the beginning, this can be dealt with by changing the density of the nonwoven fabric 1 or by changing the mixing position of the water-absorbing polymer 2.

That is, by increasing the surface density of the nonwoven fabric and changing the insertion and fixing position of the water-absorbing polymer to both sides of contact with the concrete, a wet state can be easily maintained. The mat of the present invention is specifically used in places where the poured concrete surface is exposed to air and is approximately flat, such as concrete pavement surfaces, bridge slabs, box culvert slab surfaces, etc. .

The method for using the mat is to spread the mat of the present invention after finishing concrete pouring, absorb breathing water and some of the excess water in the concrete, and prevent the surface strength of the concrete from decreasing. , to act as a curing mat. FIGS. 5 and 6 show an example of a concrete pouring method using the concrete curing mat of the present invention, which is applied to the production of precast plates used in prefabricated construction and the like.

That is, in the figure, 12 is a base frame, 13 is an upper frame, 14a to 14e are plate-shaped forms placed between the base frame 12 and the upper frame 13 at appropriate intervals, and in particular, 14a is a fixed end mef. Yes, 14b-14
d is the intermediate leaf, 14e is the moving end leaf, 1
5 is a moving end leaf 14 arranged on the frames 12 and 13.
This is a jack for moving e.

Further, 16 is a lower frame placed at the bottom of the space between the plate-shaped forms 14, and 17 is a side frame placed on both sides of the space. In the construction method of the present invention, the above-described concrete curing mat 18 of the present invention is attached to the inner surface of the formwork formed by each plate-like formwork 14, and concrete 19 is poured into the mold.

If necessary, consideration may be given to reinforcing bars (not shown) before pouring this concrete IJ-t. According to the construction method of the present invention, it is possible to place concrete by arranging a large number of precast formworks vertically, rather than horizontally.

In other words, pouring concrete into such narrow and deep formwork requires pouring fresh concrete with a high water/cement ratio, but according to the method of the present invention, the inner surface of the formwork has extremely high water absorption capacity. Since there is a curing mat 18 of the present invention, excess water is absorbed by the mat 18. Taking a building as an example, the thickness of this type of precast plate is about 12 cm to 15 cm, so the effect of water absorption by the water absorbing polymer is extremely large, and as a result, a precast plate with high strength can be obtained.

Furthermore, to further enhance the effectiveness of this construction method, the density of concrete can be further increased by applying vibration to the concrete to collapse the water channels created by water absorption. A similar effect can also be obtained by mechanically pressurizing the concrete surface and crushing water channels. Since the concrete curing mat of the present invention is as described above, it has the effect of being able to cure concrete with a small water/cement ratio and providing high quality concrete. Furthermore, the mat of the present invention can be used by being attached to a formwork or spread on a concrete surface, so it has the advantage of having a wide range of applications.

Furthermore, the mat of the present invention has a large water absorption capacity and excellent water retention, so it does not require frequent watering unlike conventional mats of this type, and is easy to handle. Since the water absorption and water separation reactions are reversible, the mat of the present invention has the advantage that it can be used repeatedly.

In addition, according to the concrete pouring method of the present invention, a large number of formworks such as precast plates are installed vertically in parallel to form a concrete wall.
Since it is possible to cast J-toe and to obtain concrete with high strength, an excellent effect can be obtained in that high-quality concrete products can be efficiently mass-produced.

[Brief explanation of drawings]

Figure 1 is a sectional view of the concrete curing mat of the present invention, Figure 2 is a sectional view of the concrete curing mat of the present invention.
The figure is a diagram showing the relationship between water absorption pressure and water absorption capacity of a water-absorbing polymer, Figure 3 is an explanatory diagram showing an example of the manufacturing apparatus for the concrete curing mat of the present invention, and Figure 4 is a diagram showing the water absorption time and water absorption of a water-absorbing polymer. A line diagram showing the relationship with magnification, FIG. 5 is a longitudinal sectional view showing an embodiment of the construction method of the present invention, and FIG. 6 is a perspective view showing the fixed portion of the formwork. DESCRIPTION OF SYMBOLS 1... Nonwoven fabric, la... Outer part, lb... Inner part, 2... Water-absorbing polymer, 12... Base frame, 13... Upper frame, 14a-14e... Plate shape formwork, 15 jack, 16... lower frame, 17... side frame,
18... Concrete curing mat of the present invention, 19...
·concrete. Figure 1 Figure 2 Figure 3 Figure 4 Figure 5 Figure 6

Claims (1)

[Scope of Claims] 1. Concrete characterized in that a water-absorbing pommer is interposed inside a nonwoven fabric having different porosity on the outside and inside, where the porosity is small in the outside part and the porosity is high in the inside part. Curing mats. 2. A concrete curing mat, in which a water-absorbing polymer is interposed inside a nonwoven fabric with different porosity on the outside and inside, where the porosity on the outside is small and the porosity on the inside is high, is attached to the inner surface of the concrete formwork. A concrete pouring method characterized by pouring concrete.