KR100458904B1 - Clay composition for a large ceramic ware and Method of calcining a large ceramic ware - Google Patents

Abstract

The present invention relates to a soil composition for large ceramic sculptures and a large ceramic sculpture baking method including the same. More specifically, the present invention relates to a soil composition capable of drying a ceramic sculpture that is lighter in weight, less shrinkage, and thicker than the soil used in conventional ceramics manufacturing, and a method of firing a large ceramic sculpture manufactured by using the same.

The soil composition for large-scale ceramic sculptures of the present invention is 50.6 to 51.9% by weight of fresh clay, 5.1 to 5.4% by weight of briquettes, 3.8 to 3.9% by weight of chamotte B6, 3.5 to 3.8% by weight of chamotte B1, 20.7 to 25.3% by weight of clay. It consists of 7.6 to 10.4% by weight, and 3.8 to 4.2% by weight of sawdust, and the large-scale ceramic sculptures made of the soil of the present invention are fired as follows in a kiln for large-scale ceramic sculptures. Using a burner 3 in the kiln 4 to heat the large ceramic sculpture to 1000 ° C. with fire oxide; The heated large ceramic sculpture is fired with a reducing salt from 1000 ° C to 1350 ° C; And the fire oxide and the reducing salt is controlled by a damper (2) which is a heat control device.

Description

Clay composition for a large ceramic ware and Method of calcining a large ceramic ware}

The present invention relates to a soil composition for large ceramic sculptures and a large ceramic sculpture baking method including the same. More specifically, the present invention relates to a soil composition capable of drying a ceramic sculpture that is lighter in weight, less shrinkage, and thicker than the soil used in conventional ceramics manufacturing, and a method of firing a large ceramic sculpture manufactured by using the same.

Wherever we go, there are many raw materials for the ceramic industry, and about 80% of Korea's underground resources can be used as ceramic raw materials.

Soils traditionally used in the pottery industry include kaolin, clay, refractory earth, general clay, clay powder, celadon soil and bone china soil. Auxiliary materials include limestone, quartzite, feldspar and pottery. The above raw materials are suitably blended and used as raw materials for ceramics.

Soil, which is usually used for baking ceramics, is suitable for making small and medium sized ceramics. When used for the production of large-scale ceramic sculptures, the soil collapses due to the weight of the soil, cracks during drying, warping, or heat. It is not suitable for the production of large-scale ceramic sculptures because it can be ruptured if it is artificially dried.

The important work in making pottery can be divided into making pottery and baking pottery, of which baking is more important. Traditional kilns used to bake pottery include a salt kiln, a sweet kiln and a raccoon kiln.

The traditional method of burning kilns is to use a thick firewood from a bongtong (large fired wood) for 12 hours, and after the temperature of the first compartment reaches about 1200 ℃, the firewood turns off the fire and goes to the small firewood in the first column. As for 2-3 hours fire. Repeating this process, the fire goes up to the third, fourth, and fifth spaces. This method is used to bake small and medium ceramics, and is not suitable for baking large ceramic sculptures.

A kiln, a short kiln or a raccoon kiln, which is usually used for baking ceramics, is manufactured by installing an oval formwork to form a kiln, interlocking trapezoidal bricks thereon, and then removing the formwork. However, when the kiln for large ceramic sculptures are manufactured in the same manner as described above, it collapses, so the construction method is a method for producing kilns suitable for small and medium sized ceramics. In order to bake large ceramic sculptures, it is not possible to produce large ceramic sculptures using traditional kiln construction methods.

Accordingly, the present inventors have developed a soil composition and a method of baking large ceramic sculptures to solve the above-mentioned disadvantages in manufacturing large ceramic sculptures.

An object of the present invention is to provide a soil composition for producing a large ceramic sculpture.

Another object of the present invention is to provide a light soil composition used to produce large ceramic sculptures.

Another object of the present invention is to provide a soil composition for producing a ceramic sculpture with a low shrinkage.

Still another object of the present invention is to provide a method of firing a ceramic sculpture manufactured using a light, low shrinkage soil composition.

1 is a schematic cross-sectional view of a kiln for firing large ceramic sculptures manufactured using the soil of the present invention.

Figure 2 is a schematic view showing the heat flow inside the kiln for firing the large ceramic sculptures produced using the soil of the present invention.

Figure 3 is a schematic diagram showing the spirally stacked top of the kiln of the present invention using a conical ceramic brick.

<Short description of the symbols in the drawings>

1: communication 2: damper

3: burner 4: kiln

5: Ceramic sculpture 6: Saddle field

7: pedestal 8: soil

9: concrete foundation 10: hole

11: hole

The present invention relates to a light and low shrinkage soil used to produce large ceramic sculptures, a kiln for baking large ceramic sculptures, and a method of firing large ceramic sculptures using the kiln.

Soil of the present invention is 50.6 to 51.9% by weight of bituminous soil, 5.1 to 5.4% by weight of briquettes, 6 to 3.9% by weight of chamotte, 3.5 to 3.8% by weight of chamotte, 3.5 to 3.8% by weight of bitumen, 20.7 to 25.3% by weight of clay, and 7.6 to 10.4% of kaolin. %, And 3.8-4.2% by weight of sawdust. After filtering each of the above components first, the raw materials blended at the above mixing ratios are dissolved in water, and the sediment is formed. The sediment is poured into another bucket. When the sediment is changed, the clear water is transferred to the sedimenting bucket again, and the sediment is formed again. Repeat the sedimentation process by handing the sediment to the bucket.

Soil according to the present invention is about the same weight as the soil used in pottery making, the general weight is about 1/4 lighter. The soil used in the normal pottery production is ordinary clay, powder for clay, celadon, clay for bone china, and the like.

In addition, even when the ceramic sculpture is made thick with the soil of the present invention, no cracking or warping phenomenon occurs during natural drying, and no bursting occurs even when artificially dried in a kiln. That is, the soil according to the present invention can be naturally dried even if made to a thickness of 45 cm, artificial drying is possible to shorten the drying period. On the other hand, even if the general soil is only 10 cm thick, not only a lot of cracks or distortion occurs during natural drying, but also causes a phenomenon of bursting when artificially dried by applying heat. Generally, it is impossible to naturally dry the soil having a thickness of 45 cm, but if the natural drying takes about one year, the soil according to the present invention can shorten the drying period of about 7 days because the artificial drying is possible. have.

With the soil according to the invention it is possible to produce a fine porous material invisible. The soil of the present invention can reduce the shrinkage that occurs during firing. That is, the general soil shrinks to about 18% to 18.7% after drying, but the soil of the present invention shrinks to about 14%. This can easily be measured by those skilled in the art.

A method of firing a large-scale ceramic sculpture manufactured using the soil of the present invention in a kiln according to the present invention will be described in detail below with reference to FIG. 2. Using the burner 3 in the kiln 4, it is heated with fire oxide to 1000 ° C, and fired with a reducing salt from 1000 ° C to 1350 ° C. The fire oxides and reducing salts are controlled by a damper (2) that is a heat control device. The heated hot air flows to the upper part of the kiln, and enters the interior of the ceramic sculpture through the hole 10 formed in the ceramic sculpture 5 to fire the interior of the sculpture. The heat introduced into the ceramic sculpture descends to the lower portion of the ceramic sculpture and is attached to the communication device 1 connected to the saddle field through the hole field through the hole 11 formed in the saddle field 6 supporting the ceramic sculpture. 2) heat is discharged.

A kiln for baking large ceramic sculptures is described in detail below with reference to FIG. As shown in Fig. 1, the concrete foundation 9 is made, the soil is piled on it, the pillar 7 for supporting the saddle field 6 is installed thereon, the saddle field is installed, and the soil is made of the present invention. A large ceramic sculpture is installed on the field, and a vertical wall is formed around the large ceramic sculpture and spirally stacked conical ceramic bricks are laid sideways from an appropriate height. And one hole left at the vertex is blocked by one inverted ceramic brick. In the kiln, the communication is connected to the bottom of the saddle field, and a damper for controlling heat is installed in the communication.

The soil of the present invention is not only suitable for the production of large-scale ceramic sculptures, but also suitable for the production of small- and medium-sized ceramic sculptures, since the soil of the present invention is lighter than the soil used for making ceramics, and the large-scale ceramic sculptures using the kiln of the present invention. When baking, the inside and the outside of large ceramic sculptures are baked together without cracking, warping or rupture, and plasticity of thick ceramic sculptures can be fired. Which has the effect of the invention.

Claims (5)

50.6 to 51.9% by weight of bituminous soil, 5.1 to 5.4% by weight of briquettes, 3.8 to 3.9% by weight of chamotte B6, 3.5 to 3.8% by weight of chamotte B1, 20.7 to 25.3% by weight of bitumen soil, 7.6 to 10.4% of kaolin, and 3.8 to sawdust. Soil composition for large-scale ceramic sculptures, characterized in that the 4.2% by weight. Using a burner in the kiln to heat the large ceramic sculptures, including the soil composition for large ceramic sculptures of claim 1, up to 1000 ° C. with a fire; The heated large ceramic sculpture is fired with a reducing salt from 1000 ° C to 1350 ° C; And The fire oxide and the reducing salt are controlled by a damper which is a heat control device, and the hot air heated by the burner moves to the upper part of the kiln, and enters into the ceramic sculpture through the hole formed in the large ceramic sculpture and calcines the interior of the sculpture. The heat introduced into the large ceramic sculpture descends to the lower portion of the large ceramic sculpture and is discharged by a damper attached to the communication connected to the bottom of the saddle field through a hole formed in the saddle cage supporting the large ceramic sculpture. Large ceramic sculpture firing method. delete delete delete