KR940006409B1 - Process for the preparation of glass sheets - Google Patents

Abstract

Glass grains colored with dye or pigment are placed inside a mold applied with an alumina mixture containing 20-30 % by weight of alumina and 1-5 % by weight of adhesive, and then sheet glass is put in, heated in a calcine furnace at a temperature of 650 to 750 deg.C, rapidly cooled to 450 deg.C, slowly cooled, and then released. The sheet glass of the present invention can be used in a wide application range, and various colors can be obtained.

Description

Building plate glass and its manufacturing method

1 is a manufacturing process diagram of the plate glass for building materials of the present invention.

* Explanation of symbols for main parts of the drawings

1: fireproof collection (template) 2: alumina (Al ₂ O ₃ )

3: glass kernel 4: plate glass

5: finished product

The present invention relates to a plate glass that is widely used as a building material, in particular, a plate glass easy to attach to the building wall and a method for manufacturing the same, more specifically, after applying the alumina mixture on the inner bottom of the mold, and then onto the glass Powder) and the plate glass prepared by the usual method in the order of glass kernels → plate glass and heated to a temperature of 650 ℃ ~ 750 ℃ to make the glass glass melt-bonded to the bottom of the plate glass for easy adhesion And it relates to a plate glass manufactured by the above method.

In general, natural marble is mainly used as interior and exterior materials of buildings, but natural marble has a natural appearance and has a very beautiful appearance, while production is limited and the price is very expensive. Recently, in order to solve the problem Artificial marble molded from FRP (fiber-reinforced plastic) or synthetic resins has been developed, but they can be produced at an affordable price, but they are not luxurious due to the lack of natural and natural aesthetics. .

And, these days, by using a plate glass as an interior and exterior material for building materials solved the problems appearing in natural marble and artificial marble, which has a disadvantage that is difficult to construct and easy to handle.

That is, when the plate glass of building materials is attached to the wall of the building, the surface of the plate glass is very smooth. There is a problem that can not be attached for a long time even if attached because it does not penetrate the body.

Accordingly, it is an object of the present invention to provide a building plate for building materials that is easy to attach to the building wall surface and excellent in natural aesthetics, acid resistance and durability.

Still another object of the present invention is to provide a method for producing the above-mentioned building glass for building materials.

In order to achieve the above objects, in the present invention, the glass kernels are fused to the back surface of the plate glass manufactured by a conventional method, and after the glass kernels are put into the mold in which the alumina mixture is applied, the plate glass is put and 650 ° C. to 750 in a firing furnace. By heating to a temperature of 占 폚, quenching to 450 占 폚 and slow cooling thereafter, it is possible to produce a plate for building materials having excellent adhesion to building wall surfaces.

The plate for building materials of the present invention and a manufacturing method thereof will be described in more detail as follows.

First, a mixture of 20 to 40 wt% of aluminum oxide (alumina Al ₂ O ₃ ), 1 to 5 wt% of adhesive, and 55 to 80 wt% of water is applied to the inner surface of the mold to a thickness of 1 to 2 mm, and then glass glass is added. The plate glass is put into a baking furnace and heated to 650 ° C. to 750 ° C. to deposit only a portion of the glass kernels on the rear surface of the plate glass, and then quenched to 450 ° C. and added to a slow cooling furnace to prepare the building material for building materials of the present invention.

Glass is a heat insulator, and its thermal conductivity is about 1 / 500th of iron, so the softening point of plate glass and glass kernels is remarkably different. That is, the softening point of the plate glass is about 750 ℃ while the glass kernel has a small volume and has a softening point of about 650 ℃. Therefore, when the plate glass is put on the glass and heated, the glass kernel reaches the softening point at about 650 ℃, and when the temperature is raised to 650 ~ 750 ℃, the glass kernel melts and the plate glass reaches the softening point. Is quenched at 450 ℃, and the upper surface maintains the shape of the plate glass as it is, and uneven irregularities are formed at the bottom, and at the bottom layer, some glass kernels are welded with alumina. Could be manufactured.

When heating the glass kernel and the plate glass, first, preheat the firing furnace to about 650 ℃, insert the mold with the glass kernel and plate glass, heat it to 750 ℃ for 1 hour, and then quench to 450 ℃ at the speed of 20 ℃ / min. Cool slowly over 8 to 12 hours. However, it is not necessary to preheat the kiln in continuous operation.

The alumina used in the present invention has a heat resistance and a melting point, and has a low thermal conductivity, so that the glass alumina can be completely prevented by coating the alumina mixture on the inner bottom of the mold and melting when the kiln is heated to 650 to 750 ° C. As the glass is gradually cooled after a part of the glass kernel is attached, it is left in the bottom portion of the plate glass in which the unevenness is formed, thereby further improving the adhesion ability of the plate glass with the building wall surface. In addition, by coating the alumina mixture on the inner bottom of the mold, it is easy to recover it when excessive amount of glass kernel is added, and the glass kernel is melted due to the increase of temperature during the work process, which prevents the glass from being leveled. It is possible to prevent the uneven formation of uneven parts. The particle size of alumina is about 200 mesh, which is effective in adhesion and heat insulation.

When the amount of alumina used is less than 20wt%, the molten glass grains and the mold come into contact with each other when the amount of the alumina is less than the amount used, and when they are cured, it is difficult to release the plate glass of the finished product from the mold. There was a problem.

On the other hand, it can be easily inferred by those skilled in the art that another material having low thermal conductivity and high heat resistance and high melting point may be used instead of alumina.

In addition, 1 ~ 5wt% of the adhesive is used to apply the alumina, and when used below 1wt%, the adhesive strength is weak, but when used at more than 5wt% the alumina mixture is too viscous to handle difficult and economical lack.

Any adhesive that can be used may be used as is commonly used in the art.

In the manufacturing process of the plate glass, the adhesive mixed to apply the alumina is usually dissipated without any chemical reaction at 120 ° C. so that it does not have any influence on the manufactured glass. After the completion of the manufacturing process, the adhesive and water are extinguished. Alumina can be reused. In particular, CMC (carboxymethyl cellulose) is a preferred adhesive, the other adhesives have a strong narrowing force, a chemical reaction occurs and a long time to disappear.

On the other hand, water may be used to prepare the alumina mixture, but any solvent may be used as long as it does not affect the glass produced without changing the properties of the alumina and the adhesive used.

The size of the glass kernels does not significantly affect the building glass plate of the present invention, but depends on the purpose of use, use, and the size of the plate glass, and the larger the size of the glass kernels, the larger the shape of the unevenness appears in the bottom of the plate glass. The adhesion of the plated glass becomes stronger, but if the size of the glass kernel is too large, the thermal conductivity of the glass kernel and the plate glass and various physical and chemical properties are similar, so that the adhesion between the glass kernel and the plate glass is not easy.

The most suitable size is preferably one in which only 1/2 is incorporated into the applied alumina mixture.

On the other hand, by adding a variety of colors to the glass kernel with a dye or pigment, and then to the inner bottom of the mold can be artificially expressed natural colors, depending on the dye or pigment used can be expressed in any color.

As the dye or pigment to be used, an oxide pigment which exhibits deodorizing effect in ultraviolet rays and infrared rays and does not change may be used, and cobalt oxide, iron oxide, and antimony oxide are particularly preferable.

As described above, after applying the alumina mixture to the inner bottom of the mold, glass kernels are added so that about half of the alumina mixture enters the alumina mixture and about 1/2 protrudes from the alumina mixture coating layer. The plate glass prepared by the method was put and put into a baking furnace and heated to 650 ℃ ~ 750 ℃ to prepare a glass plate for building materials in which glass kernels were welded on the plate glass.

The plate glass for building materials produced by the method of the present invention exhibits more than twice the adhesive strength than marble when attached to the building, and because the adhesive strength is strong, it can be widely used in interior and exterior materials, flooring, ceiling materials, etc. By showing various colors, it is excellent in luster when the interior and exterior of the building is made of plate glass manufactured using colored glass kernels.

The following examples more specifically illustrate the building glass plate of the present invention and its manufacturing method, but are not intended to limit the scope of the present invention.

Example 1

First, a mixture was prepared by uniformly mixing 30 wt% of aluminum oxide (alumina, Al ₂ O ₃ ), ₃ wt% of adhesive (CMC, manufactured by Korea Ginseng Co., Ltd.), and 67 wt% of water, and then the inner surface of the rectangular mold having an open top surface. Apply to a thickness of about 2mm. Next, glass kernels having an average diameter of about 2 mm are administered onto the alumina mixture coating layer, and the upper surface is horizontal, and then, the glass plate prepared by the usual method is placed on the glass kernels.

After that, the mold is placed in a kiln and heated to 750 ° C. to allow glass kernels and plate glass to be welded. Then, the mold is taken out of the kiln, quenched to 450 ° C. at a rate of 20 ° C./min, and then put into a slow cooling furnace for 8 to 12 hours. It was cooled to room temperature over and released to prepare a plate glass for building materials of the present invention.

Unevenness was formed on the back side of the glass plate, which was formed on the rear surface of the glass plate. When the plate was confined to the wall using mortar, it was completely attached within 10 hours and had a strength of 21 kg / m 2.

Example 2

The alumina mixture was applied to a thickness of about 1 mm, and the glass was prepared in the same manner as in Example 1 except that glass kernels having an average diameter of 1 mm were used and were squeezed to the wall. Strength was 20.5 kg / m 2.

Example 3

As a dye, except that a colored glass kernel prepared by adding antimony oxide was used, the building plate for building materials was manufactured in the same manner as in Example 1.

Comparative Example 1

In order to comparatively test the adhesive strength of the plate glass for building materials of the present invention, the plate glass (manufactured by Korea Glass Co., Ltd.) manufactured and marketed by a conventional method was squeezed to the wall surface in the same manner as in Example 1, It did not work well, but the adhesion strength was less than 10kg / ㎡ even if attached.

As can be seen from this comparative example, the plate glass of the present invention was more than twice as strong as the conventional plate glass.

As described above, the plate glass for building materials of the present invention can be widely used as interior and exterior materials, flooring, ceiling materials, etc. because of the strong adhesive force with the building wall surface, and the adhesive strength, various colors by manufacturing the glass plate by coloring the glass kernels It is possible to make it appear, and it is excellent in luster when the interior and exterior of the building is made of plate glass manufactured using colored glass kernels.

Claims (5)

Glass is placed inside the mold coated with alumina mixture consisting of 20-40 wt% of alumina and 1-5wt% of adhesive, and then plate glass is added.Then, it is heated to a temperature of 650 ~ 750 ℃ in a sintering furnace, quenched to 450 ℃ and slowly cooled to release. Method for producing a plate glass for building materials, characterized in that. The method according to claim 1, wherein the glass kernels are colored with a dye or a pigment. The method of claim 2, wherein the dye or pigment is selected from the group consisting of cobalt oxide, iron oxide, and antimony oxide. The method according to claim 1, wherein the size of the glass kernel is about half the amount of the alumina mixture applied to the coating layer. The glass plate for building materials manufactured by the method of any one of Claims 1-3.