JPH07109133B2 - Non-fired tile and method for manufacturing the same - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a non-firing time composed of a cement-based hardened product having gloss on the skin surface and a method for producing the same, and more specifically to the use of a gloss admixture. The present invention also relates to a non-fired tile that can be obtained without firing a tile having gloss on the skin surface without using gloss polishing and a method for producing the tile.

[Prior Art and Problems] Wall and floor tiles for interior and exterior have been manufactured as pottery, stoneware or pottery, etc. While these fired tiles have excellent glossiness on the skin surface, they have problems that they cannot be made large in size and the firing cost is high.

In addition, as tiles other than fired tiles, non-fired tiles using a cement-based hardened body are also manufactured, but in the case of this tile, since an admixture for polishing and gloss is used as a means for obtaining a glossy skin surface. However, there is a problem that the glossiness and strength characteristics of the skin surface are inferior to those of the above-mentioned fired tile, and the cost is increased.

The present invention has been made in view of the above circumstances, using a cement-based hardened material that does not require firing, does not require polishing work, and has a problem in terms of weather resistance. It is an object of the present invention to provide a non-fired tile which is excellent in the glossiness and mechanical properties of the skin surface without using.

[Means for Solving Problems] The present invention has the following structure in order to solve the problems of the conventional method. That is, at least the inner surface of the mold formed of a plate material that is detachably covered with a flexible plastic film, the flow value is about 180 ~ 280, the ratio of cement and sand is 1: 1. Approximately 1: 3 of cement-based hardened material is cast, and then the cement-based hardened material is continuously pressure-molded at a pressure of at least 1 kgf / cm ² until the completion of curing, so that it is fired during manufacturing. It is characterized in that a non-fired tile having a gloss on the skin surface, which is composed of a cement-based hardened body which is pressure-molded, is obtained without requiring a step.

In the present invention, the cement-based hardened material is first placed in the tile formwork, and is subjected to vibration to expel air,
Then, pressure curing is performed.

The mold used, at least the inner surface is formed of a plate material having excellent smoothness without water absorption, or whether the bottom of the mold is covered with a flexible release material such as a plastic film, Is one of. As the plate material having no water absorption and excellent smoothness, for example, a glass plate, a plastic plate, a steel plate, or an aluminum plate is used. As the flexible plastic film, for example, a polyvinyl chloride film or a polyvinyl acetate film is used.

Next, the cement-based hardened material is
Pressurized. By this pressurization, the cement-based hardened material is brought into close contact with the inner surface of the mold, and the shape of the surface is molded to be the same as the shape of the inner surface of the mold (however, of course, both The irregularities are the opposite).

When the inner surface of the mold is made of a plate material having excellent smoothness as described above, the surface of the cement-based hardener material is formed as a smooth surface as the inner surface of the mold. Further, since this plate material has no water absorbency, fine unevenness on the tile surface due to swelling of the inner surface of the mold or dehydration near the surface of the cement-based hardened material does not occur. further,
Since the pressure is maintained until the cement-based hardener material exhibits the required strength, the tile produced by this method retains a smooth and glossy surface even after demolding.

Further, when the cement-based hardener material is placed after the flexible plastic film is laid on the inner surface of the mold, the surface of the cement-based hardener material is formed in contact with the plastic film. It will be. And
Since this plastic film is spread so as to be in close contact with the inner surface of the smooth mold, the surface of the plastic film is as smooth as the inner surface of the mold. Therefore, the surface of the product manufactured by this method is smooth and glossy as described above. Further, when the plastic films are spread in this manner, the mold can be removed easily, and the surface of the product is less likely to be scratched during the mold release, so that the work becomes more efficient.

The cement-based hardened material used for the non-fired tile of the present invention is concrete, mortar, cement paste or the like. That is, the cement-based hardened material is a mixture of water, cement, aggregate, and, if necessary, an admixture, an admixture or a pigment, and does not need to be any specific one. It is desirable to use white aggregate and cement for the light-colored or light-colored non-fired tiles, and the pigment is preferably an inorganic material from the viewpoint of weather resistance and fading.

However, in order to obtain a more glossy and beautiful skin surface, there are points to be noted with the following numbers.

The flow value of the hardened cementitious material of the pouring line is 180-2
It is about 80. (The flow value is an index showing the fluidity of the hardened cement material, and is mainly determined by the water-cement ratio.) If the water-cement ratio of the hardened cement material is small, the denseness of the product material will improve. , Bubbles tend to remain on the surface of the product. On the other hand, if the water-cement ratio of the cement-based hardener material is high, the bubbles on the surface will be more likely to escape, but the compactness of the product material will decrease, and the cement-based hardener material will not be It becomes easy to flow out from the gap. The water-cement ratio is preferably set to a moderate value in consideration of the above-mentioned contradictory characteristics, but as a result of the test, when the flow value is in the above range, a dense and bubble-free tile skin surface is obtained. It was shown that

The ratio of cement to sand is about 1: 1 to 1: 3.

Increasing the sand ratio above this range will result in a roughened tile surface and insufficient gloss. On the contrary, when the ratio of cement is increased beyond this range, shrinkage cracks occur in the material. The results of the tests showed that good results were obtained with the above values.

The pressure to press the hardened cementitious material after placing is 1k.
g · f / cm ² or more is required, and 2 kg · f / cm ² or more is desirable. As a pressurizing method, a known method such as a load, a vapor pressure, an expansion pressure or the like is used.

In order for the surface of the cement-based hardened material to adhere to the form, the pressure required for pressurization should be high. However, in order to pressurize with a high pressure, there is a possibility that the pressurizing device and the mold will be large-scaled. As a result of the test, it has been shown that the above-mentioned pressure gives sufficient gloss to the skin surface of the product tile.

It is desirable that the pressurization be continuously performed from immediately after the completion of driving until the cement-based hardened material is sufficiently hardened.

A certain pressure period is required for the stability of the product surface, but this pressure period is, for example, when ordinary Portland cement is used as the cement-based hardening material,
It is at least 1 day or more, preferably 3 days or more. Further, during this period, it is desirable to keep the hardened cementitious material in a wet state, and known means such as wet curing, steam curing, autoclave curing or the like is used as the means.

Hereinafter, the present invention will be described more specifically by way of examples.

[Example 1] An example in which an unfired tile was prototyped by the method of the present invention will be described below.

FIG. 1 is an exploded perspective view showing a mold and pressurizing device of a non-fired thyme prototype.

In the figure, reference numeral 1 is a mold bottom plate having holes 1a ...
Is a 0.5 mm-thick polyvinyl chloride film spread on the upper surface of the mold bottom plate 1, 3 is mounted on the polyvinyl chloride film 2, and is composed of a side plate part 3a and a flange part 3b. The holes 4 forming female screws are formed at the four corners of the portion 3b), and the side plate portion is formed.
The inside dimensions of 3a are 100 x 100 mm and the height is set to 15 mm. Further, reference numeral 5 is a bolt which penetrates through the holes 1a and is fitted into the holes 4 to fix the polyvinyl chloride film 2 and the frame side frame 3 to the frame bottom plate 1, and 6 is the surface of the cement mortar. 98mm x 98mm PVC film with a thickness of 1mm that covers the surface (the surface is formed with irregularities), 7 is a vinyl film 6
Pressure plate of 98 × 98mm and height of 15mm, 8 is pressure plate 7
It is a weight to be mounted on.

The mold bottom plate 1, the mold side frame 3, and the pressure plate 7 are all made of steel, glass, or aluminum, and their inner surfaces (the surfaces on the side contacting or facing cement mortar) are , Smooth and polished.

In the trial production of the non-fired tile using the formwork having the above-mentioned structure, first, the polyvinyl chloride film 2 is spread on the upper surface of the formwork base 1 and the formwork side frame 3 is mounted thereon.
The person is fixed with bolts 5 ... Next, fresh cement mortar is poured into the recess formed by the form bottom plate 1 and the form side frame 3. Subsequently, the mold bottom plate 1 and the mold side frame 3 are placed on a table vibrator and vibrated to discharge air bubbles in the fresh cement mortar.
Furthermore, after leveling the surface of the fresh cement mortar evenly, a polyvinyl chloride film 6 is placed on this surface.
And the pressure plate 7 are sequentially mounted. As shown in the figure, the weight of the weight 8 is placed on the above set.

In this example, the content of cement mortar was 1 part by weight of white Portland cement to 2 parts by weight of white frame sand and 0.5 part by weight of water. In addition, after the above-mentioned casting is completed, wet curing is performed for 3 days, and at the same time, continuous pressure is applied,
After that, the mold was removed. The weight of the pressure plate 7 and the weight 8 is 2.0 kg / f when the nominal stress (pressure) generated in the cement mortar part by mounting them is equivalent to 0.2 kgf / cm ^2.
・ Two types were used, one equivalent to f / cm ² . As shown in Fig. 2, the size of the obtained tile T is 100 x 100 x 6t (mm).
Met.

When a pressure equivalent to a nominal stress of 0.2 kg / f / cm ² is applied (this is particularly the case when cement mortar is placed without providing a pressure means), the surface of the obtained tile is finely divided. Many cracks and irregularities were seen. On the other hand, the nominal stress
When a pressure equivalent to 2.0 kgf / cm ² is applied, the surface of the obtained tile is extremely smooth and has few irregularities. This means that in order to obtain a gloss on the surface of the manufactured tile, 2.0 kg / cm
It indicates that it is necessary to apply a pressure of about ² .

[Example 2] An extinguished non-fired tile was prototyped using the same method and apparatus as in the first example.

However, in this embodiment, the rigid vinyl chloride sheet 2
A soft vinyl chloride sheet was used instead of. Further, the formulation of cement mortar was as follows. That is, 1 part by weight of white Portland cement to 2 parts of white frame sand
Parts by weight, water 0.4 parts by weight, expander 0.05 parts by weight, pigment 0.05 parts by weight, water reducing agent 0.01 parts by weight. The applied pressure is 2.0 kg
・ F / cm ² was continuously applied under pressure and humidity for 3 days until demolding.

The surface of the resulting tile is a smooth and matte surface, and as with conventional fired tiles, it has high mechanical strength, a high decorative effect, and a large size of 200 x 200 x 7t (mm). It was

As shown by the first and second embodiments above, according to the present invention, it is possible to obtain a tile having a gloss surface equal to or higher than that obtained by the conventional method, and further, firing is not required. Therefore, it is possible to easily obtain a tile having a larger area than the conventional fired tile. With pressure curing, excess moisture and air bubbles are reduced, so that a tile tile with high strength can be obtained. Since it is composed of a cement-based hardened material, tiles with excellent adhesion to concrete and sticking performance can be obtained. Cement-based curing that does not have a glossy surface This product can be manufactured without increasing the number of work steps compared to the manufacturing of this product. It does not deteriorate the compactness and weather resistance of the cement-based hardened material that is the constituent. Further, since the same material as a general cement-based hardened material can be used, the material cost can be reduced as compared with the conventional glossy surface finishing method using a gloss admixture, and no polishing work is required, which is complicated. Shaped tile products are easy to manufacture and do not require finish painting, so no toxic gas is generated during a fire even when used for building interiors.
You can get safe tiles.

[Effects of the Invention] As described above, according to the present invention, it is possible to obtain a tile having a gloss surface equal to or higher than that obtained by the conventional method, and further, since firing is not required, the conventional fired tile A large area can be easily obtained. With pressure curing, excess moisture and air bubbles are reduced, resulting in a high-strength tile. Since it is composed of a cement-based hardened material, tiles with excellent adhesion to concrete and sticking performance can be obtained. It can be manufactured without increasing the work man-hours as compared with the manufacture of a cement-based cured product having no glossy surface. It does not deteriorate the compactness and weather resistance of the cement-based hardened material that is the constituent. Further, since the same material as a general cement-based hardened material can be used, the material cost can be reduced as compared with the conventional glossy surface finishing method using a gloss admixture, and no polishing work is required, which is complicated. It is easy to manufacture shaped tile products and does not require finish painting, so it is possible to obtain safe tiles that do not generate toxic gas when fired even when used for building interiors. .

Further, in particular, according to the manufacturing method of the present invention, the flow value is 180
Since a cement-based hardened material of about 230 is used, it is possible to obtain a dense and foam-free tile skin surface. And
Since a cement-based hardened material with a ratio of cement to sand of about 1: 1 to 1: 3 is used, it is possible to obtain a fine and sufficiently glossy skin surface of the tile, and shrink cracks occur in the material. Can be prevented. Furthermore, since the cement-based hardener material is continuously pressure-molded at a pressure of at least 1 kg / cm ² until it is hardened, the surface of the cement-based hardener material adheres to the formwork, giving a sufficient gloss to the tile skin surface. Can be obtained. Therefore, in the non-fired tile of the present invention, the skin surface of the tile has sufficient gloss.

[Brief description of drawings]

FIG. 1 is an exploded perspective view showing a mold and a pressure device for carrying out the method for producing a non-fired tile according to the present invention.
The figure is a perspective view of the produced non-fired tile. 1 ... Form bottom, 1a, 4 ... Hole, 2, 6 ... Polyvinyl chloride film, 3 ... Form frame side, 3a ... Form frame side plate, 3b ... Form frame side Flange part, 5 ... Bolt, 7 ... Pressure plate, 7 ... Pressure plate, 8 ... Weight.

Claims (2)

[Claims] 1. A non-firing tile characterized by comprising a cement-based hardened body that is pressure-formed without requiring a firing step during production and having gloss on the skin surface. 2. A mold having a flow value of about 180 to 280 and a ratio of cement to sand in a form made of a plate material at least the inner surface of which is detachably covered with a flexible plastic film. Cement-based hardener material that is about 1: 1 to 1: 3 is placed, and then the cement-based hardener material is
A method for producing a non-fired tile, which comprises continuously performing pressure molding at a pressure of at least 1 kgf / cm ² until completion of curing.