KR20040022804A - Method of made a porcelain enamel ink for glass - Google Patents

Abstract

The present invention relates to a method for producing enamel ink for printing glass, dissolving the composition of silicon dioxide, lead oxide, soda ash, lithium carbonate, salt stone, antimony, cadmium, titanium, and ferric acetate at 1300 ° C. and dropping it in a cabinet water such as coarse salt. The first step of producing glaze of white mass, the glaze 60-65%: The second step of producing a slip of the grind state by mixing in a blending ratio of 40-35% of water and crushed into 250-450 mesh by a ball mill; Pigment is applied to the slip to produce glaze printing ink, and the printing of various colors on the glass plates of various building materials is printed by the usual printing technique, and then combined with the third process of firing at 540-570 ° C. It is characterized by getting.

Description

The manufacturing method of enamel ink for glass printing {METHOD OF MADE A PORCELAIN ENAMEL INK FOR GLASS}

This invention relates to the manufacturing method of the enamel ink for glass printing.

Plastering interior materials of the conventional architecture by mixing various color materials in the interior material composition to express the artificial marble pattern or various patterns by screen printing. Recently, glass plate is used as exterior wall material, but glass plate is simple except light due to fame, and lacks aesthetic sense of building, but it is in a situation where high aesthetic sense of building exterior material and interior material is desired according to improvement of living standard and economic ability. .

It is an object of the present invention to provide a beautiful building material that does not change color permanently and is permanently printed at low temperature by printing patterns and shapes with enamel ink of various colors on a glass plate.

The present invention is to dissolve the composition of silicon dioxide, lead oxide, soda ash, lithium carbonate, salt stone, antimony, cadmium, titanium, ferric acetate at 1300 ℃ and drop in a cool water to prepare a glaze of white chunks such as coarse salt The first step, glaze 60-65%: water at a mixing ratio of 40-35% mixed with a ball mill to 250-450 mesh to prepare a slip of the gruel (Slip) and the pigment on the slip It is possible to produce glaze printing ink by printing various colors of pictures and characters on glass plates of various building materials by the usual printing technique, and then obtain the glass print of enamel by the combination of the third process of firing at 540-570 ℃. It is to be done.

The glaze prepared in the first step is a frit fired at a low temperature containing a large amount of lead, and can be applied as a glaze of an aluminum product fired at a temperature of 600 ° C. or lower. It will be.

In addition, the slip produced in the second process is a grind crushed into fine particles of the glaze component that is most suitable for printability, and can function as a printing ink without any additives only by its viscosity. The technique of printing with the slip ink with the glaze of the present invention is various, but is mainly suitable for drawing using screen printing, gravure printing, spray technique, and brush.

In the third process, after printing beautiful patterns or letter pictures with various colors of glaze ink on the large glass plate and firing them at 540-570 ℃, the minerals of the glaze are fused together on the glass plate so that the color is bright without fading or discoloration. Permanent beautiful aesthetics can be maintained, so that it can be more usefully used as interior materials or exterior materials of buildings than simple transparent glass plates, and the exterior and interior of buildings are more beautiful.

One embodiment of the present invention will be described in detail as follows.

Preparation of the first step glaze

Silicon dioxide (SiO ₂ ) 28. 5% by weight. Lead oxide (Pb ₃ O ₄ ) 32.6% by weight, soda ash (Na ₂ O ₃ ) 16.6% by weight, lithium carbonate (Li ₂ CO ₃ ) 4.5% by weight, cornerstone (NaNO ₃ ) 4.6%, antimony (SbCl) 0.8% by weight, 0.6% by weight of cadmium (K ₂ Cd), 7.5% by weight of titanium (TiO ₂ ) and 4.3% by weight of nitric acid (KNO 3) are added to a stirring vessel, and mechanically stirred to be sufficiently mixed, followed by dissolution at a temperature of 1300 ° C. After dissolution is completed, it is quenched by dropping it in cooling water. It ruptures during the quenching process to yield white chunks of coarse salt, or frit. The glaze is a low temperature glaze that melts at a temperature of 540-570 ° C. The glaze becomes the starting material of the glaze ink of the present invention.

Preparation of the Second Process Slip

The glaze mass produced in the first step is ground by a ball mill. Glaze 60-65% by weight: 40-35% by weight of water is blended to form a grind as it is ground. Grinding particle size is 250-450 mesh, which is the most suitable particle size for printing. A glaze ink is prepared by adding a pigment of a desired color to the slip of the jigsaw.

Third process printing method

Various patterns, texts and pictures are printed on the glass plate by using the printing ink of slip produced in the second process. Glass is applied to all glass materials used as building materials such as general glass, tempered glass, special glass, flat glass, curved glass, transparent glass, and translucent glass. Printing techniques are conventional and the most common include screen printing, gravure printing, spraying, painting with a brush, and the like. It also includes monochromatic and polychromatic printing.

The glaze ink printed on the glass plate is dried at room temperature and then passed through a firing furnace at a temperature of 540-570 ° C. so that the glaze ink is fused to the glass surface to obtain a glass building material printed with the ink of the glaze of the present invention.

Since the glass building material of the present invention is printed in various colors and the glaze ink is fused to the glass plate by heating, when used as an exterior material or interior material of a building, the appearance is beautiful, the color is bright, and even when irradiated with sunlight for a long time, Without fading or discoloration, it remains permanent like the pattern of porcelain.

According to the present invention, glass plate printing ink is manufactured from low temperature melt glaze and printed and printed in various colors so that the beauty of the glass plate can be increased from the simplicity of the glass plate to the colorful pattern or color, and its application range is wide, so that it can be used for interior furniture, department stores, etc. It can be used for showcases, night signs, and many other uses.

In addition, since it is expressed by the plasticity of minerals, even if it is irradiated with sunlight for a long time, the color of the ink does not fade or discolor and it is fused together with the glass plate so that there is no dropout phenomenon and it is always used to be a building material by maintaining vivid colors. There are various effects that can enhance the aesthetics of the building and increase the usefulness of the glass plate.

Claims (2)

The first process of dissolving a composition of silicon dioxide, lead oxide, soda ash, lithium carbonate, salt stone, antimony, cadmium, titanium, and oxyacetate at 1300 ° C. and dropping it in cooling water to prepare a glaze of a white mass such as coarse salt. 60-65%: The second step of producing a slip of the grind state by mixing in a weight ratio of water 40-35% and pulverized to 250-450 mesh by a ball mill, and adding a pigment to the slip to produce a glaze printing ink A method for producing enamel ink for glass printing, comprising a combination of a third process of printing pictures and characters of various colors on a glass plate of building materials by a conventional printing method and then firing at 540-570 ° C. The composition of the glaze of the first step is 28. 5% by weight of silicon dioxide (SiO ₂ ). Lead oxide (Pb ₃ O ₄ ) 32.6% by weight, soda ash (Na ₂ O ₃ ) 16.6% by weight, lithium carbonate (Li ₂ CO ₃ ) 4.5% by weight, cornerstone (NaNO ₃ ) 4.6%, antimony (SbCl) 0.8% by weight, A method for producing enameled ink for glass printing, comprising 0.6 wt% of cadmium (K ₂ Cd), 7.5 wt% of titanium (TiO ₂ ), and 4.3 wt% of nitric acetate (KNO 3).