KR100243544B1 - Manufacturing method of artificial stone using stratified clay and the artificial stone thereby - Google Patents

Abstract

The present invention relates to a method for producing artificial stone having a beautiful stripe on the surface, smooth appearance and excellent hygroscopicity and artificial stone thereof.

Artificial stone manufacturing method using a multi-layered sediment of the present invention is the first firing a multi-layered sediment containing at least one clay layer having a content of iron oxide (Fe ₂ O ₃ ) 2% -8% for 72 hours at 800 ℃-900 ℃ step; Second firing the first calcined product at 1200 ° C.-1300 ° C. for 1 hour to 2 hours; Cooling the secondary calcined product to room temperature and then polishing in a ball mill for 6 to 7 hours.

According to the artificial stone manufacturing method according to the present invention, it is possible to mass-produce artificial stone having a more aesthetic appearance than natural stone at a low cost, the artificial stone has a beautiful appearance, and the specific gravity is about 1/3 of the natural stone is very light and excellent hygroscopicity Has an effect.

Description

Method of manufacturing artificial stone using multilayered sediment and artificial stone thereof

The present invention relates to a method of manufacturing artificial stone using a multi-layered sediment and artificial stone thereof, and more particularly, to a method of manufacturing artificial stone having a beautiful stripe on the surface and smooth appearance and excellent hygroscopicity.

Busy modern people living in concrete walls have a very limited opportunity to come in contact with nature, so they are striving to approach nature through a variety of hobbies. By artificially decorating artificial ponds, stone carvings, etc., you have the opportunity to be emotionally friendly with nature.

However, in order for rocks to have value as ornamental stones such as chiefs, they must have various shapes or shapes through natural weathering for a long time, so they exist very rarely in the natural state, and are difficult to collect and expensive. In addition, the landscaping stone used for flower beds or ponds also has a costly disadvantage. Moreover, flower beds made in apartments need to be adequately supplied with moisture to create conditions for plants to survive because the floor is concrete, not soil. Therefore, there is a problem in that maintenance is not easy. In addition, natural stones have little ability to absorb moisture, so they do not contribute to the living conditions of plants at all, and are used only for flower beds for ornamental purposes.

The present invention has been made to solve the conventional problems as described above, an object of the present invention is to provide an artificial stone manufacturing method using a multi-layered sediment that can produce a large amount of artificial stone with a beautiful appearance at a low cost.

Another object of the present invention is to provide an artificial stone using a multi-layered sediment having a beautiful appearance, high hygroscopicity and a specific gravity less than half as compared with conventional natural stones.

1 is a flow chart of the artificial stone manufacturing method using a multi-layered sediment according to the present invention,

Figure 2 is a perspective view showing the appearance of the artificial stone using a multi-layered sediment according to the present invention.

In order to achieve the above object, the artificial stone manufacturing method using the multi-layered sediment of the present invention is 800 ℃-900 ℃ multi-layered sediment containing at least one clay layer having a content of iron oxide (Fe ₂ O ₃ ) 2% -8% Primary firing for 72 hours; Second firing the first calcined product at 1200 ° C.-1300 ° C. for 1 hour to 2 hours; Cooling the secondary calcined product to room temperature and then polishing in a ball mill for 6 to 7 hours.

In addition, the artificial stone using the multi-layered sediment of the present invention, after firing a multi-layered sediment containing at least one clay layer having a content of iron oxide (Fe ₂ O ₃ ) of 2% -8% and cooled to room temperature and the ball mill 6 By polishing for a period of time to 7 hours, streaks of a predetermined color generated by the firing of the clay layer appear, and the surface is characterized by having a surface polishing degree of at least steel.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the artificial stone manufacturing method and the artificial stone using the multilayered sediment of the present invention.

1 is a flow chart of a method of manufacturing artificial stone using a multi-layered sediment according to the present invention, as shown in the manufacturing method of the present embodiment comprises a raw material preparation, primary firing, secondary firing, polishing process.

Clay minerals are produced by weathering of igneous rocks at the surface, and clays of various components are produced according to the types, decomposition and metamorphic processes of the mother rock. In other words, clay is a secondary product produced in the earth's crust due to natural decomposition such as feldspar and mica, which are weathered and hydrothermal. When rocks or kaolin, which are decomposed by weathering or hydrothermal action, remain near the weathered area, they are called primary clay or residual clay, and these primary clays are moved away by the action of wind and water. Small particles move away and heavy, coarse particles move closer and settle and accumulate by size and specific gravity due to defensive and wind rain, a natural process of sedimentation or accumulation. The clay produced by moving from the position originally created and having small granular minerals is called secondary clay or sedimentary clay. Secondary clay is hardened and fossilized is called shale. These secondary clays contain organic acids, namely humic acids, generated as plants decay and decay together during production. Secondary clay is mixed with particles of other minerals in the process of moving and depositing, especially iron and organic material is accompanied by more impurities than the primary clay. Primary clays are close to white, but secondary clays are colored. Such clays exhibit plasticity when containing moisture as aggregates of natural fine particles, and exhibit rigidity when dried, and sinter when fired at an appropriate temperature. The component is alumina silicate and the chemical formula is Al ₂ O ₃ · 2SiO ₂ · 2H ₂ O. However, these formulas are rarely used. This is because clay is a fine particle produced by the decomposition of rock or mineral as described above, and thus contains various impurities. For example, clay produced in Michang-ri, Seochang-myeon, Minnam-gun, Jeonnam consists of 65.10% SiO ₂ , 14.4% Al2O3, 2.14% Fe2O3, 0.8% CaO, 0.27% MgO, and clay produced in Saturni, Wolseong-myeon, Wolseong-gun, Gyeongbuk. Is composed of 63.46% SiO 2, 24.60% Al 2 O 3, 1.88% Fe 2 O 3, 0.98% CaO, 1.11% MgO.

Kaolin is also known as kaolin, and its chemical formula is Al ₂ O ₃ · 2SiO ₂ · 2H ₂ O, which is different from clay in terms of chemical composition, but differs in physical properties. In general, the firing color is white or pale color close to white.

In this embodiment, the clay is deposited using a plurality of clays deposited as a raw material. Preferably, the clay layer 5 having a content of iron oxide (Fe ₂ O ₃ ) of 2 to 8% is less than 2%. The multilayered sedimentary soil deposited alternately with the clay layer or the kaolin layer 3 is used as a raw material. The clay layer 5 having a content of iron oxide (Fe ₂ O ₃ ) of 2 to 8% is called brick clay or red clay and the main mineral is kaolin, montmorillonite, illite, silica and iron mineral. This raw material is preferably a state in which it is hardened to a considerable hardness under pressure for a long time after deposition, or does not reach the hardness of ore, that is, shale.

The sedimentary soil is first calcined for about 72 hours in a kiln at a temperature of 800-900 ° C., preferably 850 ° C., through a sizing step to a degree slightly larger than the size of the final artificial stone in consideration of the margin during polishing after firing.

When the primary fired sediment is secondary fired at a temperature of 1200 ° C.-1300 ° C., preferably 1240 ° C. for 1 to 2 hours, the iron oxide of the red clay deposit is oxidized to form red streaks. At this time, the color of the generated stripes has a red or brown color by the content of iron oxide and other impurities, and the clay layer or kaolin layer other than the white layer becomes a white color.

Next, after the secondary calcined sediment is cooled to room temperature, charged into a ball mill and polished for about 6 to 7 hours, artificial stone having the same degree of polishing as the surface of natural stone produced by long weathering is obtained. Is generated. Polished artificial stone is subjected to the process of screening only products with aesthetics above a certain standard.

Figure 2 is a perspective view showing the appearance of the artificial stone (1) using a multi-layered sediment according to the present invention, as shown in the present embodiment, the clay layer for bricks having a content of iron oxide (Fe ₂ O ₃ ) 2 to 8% ( Red clay layer) (5) for masonry by firing the multi-layered sediment deposited alternately with the clay layer or kaolin layer (3) having an iron oxide content of less than 2%, cooled to room temperature and polished for 6 to 7 hours in a ball mill, The clay layer is fired to show reddish brown stripes, and the surface is polished by a ball mill and polished like natural stone. The polishing degree of the artificial stone remains at least the surface polishing degree of the cobbles, or even smoother. The spacing of the stripes of artificial stone is variously formed according to the sedimentary soil, and the spacing and shape of the stripes after firing can be predicted by the sedimentary layer pattern appearing lightly on the surface of the raw material. According to another embodiment of the present invention, the pattern may be represented by a tree ring pattern.

The artificial stone of the present invention can be used as interior materials, interior panels, etc. in addition to the landscape stone, by selecting a variety of shapes and sizes of the raw material charged.

EMBODIMENT OF THE INVENTION Hereinafter, the artificial stone manufacturing method using the multilayered sedimentary soil of this invention of the said structure and the effect of the artificial stone are demonstrated.

According to the artificial stone manufacturing method of the present invention, it is possible to mass-produce the artificial stone appearing in the state in which the beautiful reddish brown stripes are deposited on a white background in a large amount at a low cost, thereby greatly reducing the raw material cost required for the landscaping field.

Since artificial stone according to the present invention generates a large amount of bubbles in the interior by firing, the specific gravity is only about one third of that of natural stone, so that the stone is easily processed to a predetermined size and shape as well as landscape stone and chief. It can be used as an interior decoration material that can be attached and can also be used as a tile material.

In addition, the artificial stone of the present invention is very excellent in hygroscopicity and moisture retention by a plurality of bubbles formed on the inside and the surface can be used also as a means for supplying water, as an example, the artificial stone of the present invention in a row of seedlings such as flower beds When it is aligned and buried and supplied with water at its end, the water can be supplied to the opposite end by the hygroscopic power of the artificial stone of the present invention, and the water thus supplied can always supply water to the plant of the seedling.

Claims (2)

Primary firing the multilayered sediment containing at least one clay layer having a content of iron oxide (Fe ₂ O ₃ ) of 2% -8% for 72 hours at 800 ° C to 900 ° C; Second firing the first calcined product at 1200 ° C.-1300 ° C. for 1 hour to 2 hours; After cooling the secondary calcined product to room temperature, artificial stone manufacturing method using a multi-layered sedimentary soil comprising grinding for 6 to 7 hours in a ball mill. Firing the clay layer by calcining the multilayered sedimentary soil containing at least one clay layer containing 2% -8% iron oxide (Fe ₂ O ₃ ), cooling it to room temperature and grinding it in a ball mill for 6 to 7 hours. An artificial stone using a multi-layered sediment having a high hygroscopicity, with streaks of a predetermined color generated by the surface and having a surface polishing degree of at least a strong gravel.