KR20050071737A - Basalt formal building materials and manufacturing method thereof - Google Patents

Abstract

The present invention relates to a basalt-like building interior and exterior materials and a method of manufacturing the same, and mixing a cement and a spherical foamed polystyrene and water, and stirring using a stirrer and drying the stirred cement and foamed polystyrene in a mold And a cutting step of removing the mold, cutting the cement and expanded polystyrene mixed structure into units using a stone cutter, and removing the expanded polystyrene exposed to the surface of the mixed cement and expanded polystyrene unit. It has porous hemispherical grooves on the surface produced through a surface treatment step of obtaining interior and exterior materials for building having a porous groove on the surface and a plurality of spherical expanded polystyrene is inserted therein, and includes expanded polystyrene dispersed therein. According to the above configuration, the present invention can easily manufacture building interior and exterior materials having porous surface texture and dark gray or black color using cement and expanded polystyrene, and the surface is porous and contains a large amount of expanded polystyrene therein. Therefore, there is an effect that can be used as sound insulation and insulation.

Description

Basalt formal building materials and manufacturing method

The present invention relates to a basalt-like building interior and exterior materials, and a manufacturing method thereof, and more particularly, to a basalt-like building interior and exterior materials having heat insulation and fire resistance and excellent interior effect.

In general, many volcanic rocks such as basalt are distributed in the lowlands between Ulleungdo, Macheonyeong Mountain Range, Yeoncheon and Addyeongyeong, Ulleungdo, Dokdo, and Jeju Island.

However, since Ulleungdo, Dokdo, and Jeju do not allow basalt to flow out, it is not practical to use basalt as a building material.

For this reason, when the interior and exterior materials for building to give an effect, such as volcanic rock caves, the interior is mostly made of fiber reinforced plastic.

However, the interior using the fiber-reinforced plastic as described above is flammable, and in particular, there is a problem in that toxic gases such as sulfurous acid gas is leaked when burned, resulting in a great casualty.

In particular, in order to enhance the interior effect, an adhesive may be used to attach the gemstone to the surface of the fiber reinforced plastic. This results in more toxic gases as the adhesive burns in the event of a fire, which can result in greater human injury.

In addition, the fiber-reinforced plastic can make the visual effect similar to the volcanic stone cave, but the texture can not be described, there is a problem that the interior material should not have a thermal insulation effect.

In view of the above problems, an object of the present invention is to provide a basalt-like building interior and exterior material and a method of manufacturing the same, which can completely reproduce the interior effects such as volcanic stone caves visually and tactilely.

In addition, the present invention has a further object to provide a basalt-like building interior and exterior materials and a method of manufacturing the same having more excellent heat resistance, and a large heat insulating effect.

And another object of the present invention to easily change the strength when used as an exterior material, interior material, and to provide a basalt-like building interior and exterior materials and a manufacturing method having a large interior effect through an easy manufacturing method.

The present invention for achieving the above object is a mixing step of mixing the cement and spherical expanded polystyrene and water, and stirring using a stirrer, and drying the step of drying the stirred cement and expanded polystyrene into a mold and And a cutting step of removing the mold and cutting the cement and expanded polystyrene mixed structure into units using a stone cutter, and removing the expanded polystyrene exposed on the surface of the cement and expanded polystyrene mixed unit, thereby forming a porous groove on the surface. It has a porous groove on the surface through the surface treatment step of obtaining a building interior and exterior materials in which a plurality of spherical foamed polystyrene is inserted therein, and is configured to manufacture a basalt-shaped building interior and exterior material including the expanded polystyrene dispersed therein. It has its features.

An embodiment of the present invention configured as described above will be described in detail with reference to the accompanying drawings.

1 is a perspective view of a basalt-shaped building interior and exterior material according to the present invention, which is composed of a cement structure 20 having a plurality of hemispherical grooves 10 whose size is not uniform throughout the surface.

The distribution of the hemispherical grooves 10 is not defined, and the size thereof is also not constant.

FIG. 2 is a cross-sectional view of a basalt-shaped building interior and exterior material according to the present invention shown in FIG. 1, and as shown therein, includes a plurality of expanded polystyrene powders 30 in the cement structure 20.

As described above, the basalt-like building interior and exterior materials according to the present invention includes a cement structure 20 outside and foamed polystyrene powder 30 therein, so that the fire resistance is superior to other interior interior materials, and thermal insulation is improved.

In addition, the effect of sound insulation can be obtained by the hemispherical grooves 10 formed on the surface of the cement structure 20.

Hereinafter, the method for manufacturing the interior and exterior building materials of the basalt shape of the present invention as described above in detail.

Figure 3 is a flow chart of the manufacturing process of the interior and exterior building materials of the basalt-shaped building according to the present invention, the step of mixing the cement and crushed expanded polystyrene and water as shown (S31); Stirring the mixture (S32); Putting the stirred material into a mold and drying (S33); Removing the mold to obtain a gemstone including expanded styrene having a high degree of freedom in and out of cement (S34); Cutting the gemstone into units having a desired size (S35); Removing the expanded polystyrene exposed to the surface of the unit.

Hereinafter, the manufacturing example of the interior and exterior building material of the basalt shape of this invention comprised as mentioned above is demonstrated more concretely.

First, in step S31 is mixed cement, expanded polystyrene crushed into spherical units and water.

This is a process of mixing the spherical expanded polystyrene in the cement structure, it is possible to change the properties of the basalt-like building interior and exterior materials manufactured according to the added weight ratio of the expanded polystyrene.

That is, when too much expanded polystyrene is added, the heat insulation is excellent, but the strength is lowered. On the contrary, when too little expanded polystyrene is added, the texture of the basalt cannot be exhibited.

As a result of the experiment, the most suitable strength and texture can be obtained when mixing 40 kg of cement and 50 to 2000 g of expanded polystyrene.

When the expanded polystyrene is less than 50g, it is insufficient to show the texture of the basalt, and when the expanded polystyrene is mixed with 2Kg or more, its strength is weak and cannot be used.

Water is mixed with the cement and expanded polystyrene at a weight ratio of about 30 to 50%, and stirred as in step S32.

At this time, the agitation is performed by using a cement mixer to stir at a rotational speed of 500 to 3500 RPM so that the cement and the expanded polystyrene are evenly mixed.

The cement may be used for general building cement, it is possible to obtain a building interior and exterior materials of the desired color by mixing black cement and white cement.

In addition, it is possible to obtain interior and exterior building materials of a variety of colors through the mixing of commercially available color cement and the color cement.

In addition, a strength enhancer may be further added to improve the bonding between the cement and the expanded polystyrene and to improve the density and the strength.

Then, in step S33, the cement and foamed polystyrene stirred as described above are put in a mold and dried.

The mold has a volume of at least 0.2 m ³ or more for mass production.

The period of drying in the mold depends on the temperature and humidity at the time of drying, but at least 3 days to dry enough to cure.

Then, the mold is removed as in step S34, and cut into units in step S35.

The cutting into the unit can not be cut by a general cutter because of the large volume of the dry structure using a mold, it is cut using a large stone cutter using a diamond cutter.

The large gemstone cutting machine uses compressed air, and a diamond cutter of 70 inches or more in diameter can be used.

The cement structure 20 shown in FIG. 1 may be obtained using the gemstone cutting machine as described above. At this time, a plurality of freely distributed polystyrene is exposed on the surface of the cement structure 20 obtained.

Next, in step S36 to remove the expanded polystyrene exposed to the surface of the cement structure 20 to form the hemispherical groove 10 shown in Figs.

As a method of removing the exposed expanded polystyrene, a chemical method and a heat treatment method may be used.

The chemical method removes the exposed foamed polystyrene by adding a cement structure 20 having the foamed polystyrene exposed to the surface for 1 to 2 seconds in an organic solvent capable of melting the foamed polystyrene.

As an example of the organic solvent, lacquer thinner may be used.

The expanded polystyrene is easily melted and removed in lacquer thinner, and the foamed polystyrene on the surface is removed to dry the cement structure 10 of FIG. 1 in which the hemispherical grooves 10 are formed, thereby removing the remaining lacquer thinner, thereby removing the texture of the basalt. The interior and exterior materials for the building can be obtained.

In addition, it is possible to remove the expanded polystyrene exposed to the surface of the cement structure 10 through the heat treatment, the temperature at this time uses a temperature of 800 ~ 900 ℃.

This range of temperatures is intended to remove the instantaneously exposed expanded polystyrene using high temperatures suitable for mass production, at which time the delay for removing the expanded polystyrene is delayed, and the hemispherical groove (10) is not completely removed. This is because the expanded polystyrene that is cured may remain in the c).

In addition, when the temperature is too high, the expanded polystyrene 30 distributed in the cement structure 10 may also be cured, which may lower the strength of the entire structure or lower the thermal insulation property, thereby degrading overall characteristics. .

Thus, by removing the expanded polystyrene freely distributed on the surface of the cement structure 10 by heat treatment or chemical treatment, it is possible to form a plurality of hemispherical grooves 10 on the surface of the cement structure (10).

The hemispherical groove 10 is a portrayal of a porous feature of basalt, and since the color of the basalt itself is dark gray or black, it is similar to the color of the cement structure 10 to obtain a building interior and exterior material showing the texture and color of the basalt. You can do it.

In addition, the basalt-shaped building interior and exterior materials according to the present invention as described above, when used outdoors, greater strength is required than when used indoors, which is adjusted to the weight ratio of the strength enhancer and expanded polystyrene for use purposes It can manufacture in the form which shows moderate strength.

Basalt-like building interior and exterior materials according to the present invention as described above can be attached to the interior and exterior using cement, epoxy has the advantage of easy construction.

In addition, the present invention improves the sound insulation effect by the porous surface as well as the interior function that reproduces the texture and color of the basalt, and has excellent thermal insulation, including expanded polystyrene.

The present invention has been shown and described with reference to certain preferred embodiments, but the present invention is not limited to the above-described embodiments and has ordinary skill in the art to which the present invention pertains without departing from the concept of the present invention. Various changes and modifications are possible by the user.

As described above, the method for manufacturing interior and exterior building materials of the basalt shape of the present invention has an effect that the interior and exterior building materials having a porous surface texture and dark gray or black color can be easily manufactured using cement and expanded polystyrene.

In addition, the interior and exterior building materials of the basalt-shaped building of the present invention has a porous surface and contains a large amount of expanded polystyrene therein, which has the effect of being used as a soundproofing material and a heat insulating material.

In addition, compared to the fiber-reinforced plastics for the interior of the existing cave atmosphere has a great heat resistance, the manufacturing method and the construction method has an easier effect.

1 is a perspective view of the interior and exterior building materials of the basalt shape according to the invention.

2 is a cross-sectional view of FIG.

Figure 3 is a flow chart of the manufacturing process of interior and exterior building materials of basalt shape according to the present invention.

* Description of the symbols for the main parts of the drawings

10: hemispherical groove 20: cement structure

30: foamed polystyrene

Claims (6)

A polyhedral cement unit with a plurality of hemispherical grooves spread out in front of the surface, Basalt-shaped building interior and exterior materials, characterized in that consisting of spherical expanded polystyrene dispersed in the interior of the cement unit. A stirring step of mixing cement with spherical expanded polystyrene and water and stirring using a stirrer, A dry molding step of drying the stirred cement and expanded polystyrene into a mold; A cutting step of removing the mold and cutting the cement and expanded polystyrene mixed structure into units using a stone cutter; Basalt shape, characterized in that consisting of a surface treatment step of removing the foamed polystyrene exposed to the surface of the cement and the foamed polystyrene mixed unit, having a porous groove on the surface and obtaining interior and exterior building materials in which a plurality of spherical foamed polystyrene is inserted therein. Manufacturing method of interior and exterior materials for construction. The method of claim 2, wherein in the stirring step, cement, expanded polystyrene and water are mixed at a weight ratio of 1: 0.001: 1 to 1: 0.05: 1, and the mixture is stirred with a stirrer having a rotation speed of 500 to 3500 RPM. Method for manufacturing interior and exterior materials for building basalt.   The method according to claim 2 or 3, wherein the cement is gray, white, black, colored cement or a mixed cement mixed cement, basalt-like building interior and exterior materials manufacturing method. The method of claim 2, wherein the drying molding step is dried at least for three days in a natural state. The method of claim 2, wherein the surface treatment step removes the exposed expanded polystyrene through a chemical treatment method or a heat treatment method, and the chemical treatment method removes the exposed expanded polystyrene using lacquer thinner, and the heat treatment method is 800 to 900. Method for producing interior and exterior building materials for basalt shape, characterized in that the heat treatment at a temperature of ℃ to remove the exposed polystyrene foam.