KR20120092349A - The paint for prevention dew condensation and method producting thereof - Google Patents

Abstract

PURPOSE: A dew-proofing paint is provided to prevent the generation of freezing by repeating absorption and emission of moisture even constructing a film under a thickness of 1mm or less. CONSTITUTION: A dew-proofing paint 31-43 weight% of water, 0.05-0.15 weight% of sterilizer, 0.2-0.4 weight% of a dispersant, 30-50 weight% of inorganic pigment, 17-27 weight% of acrylic emulsion resin, 0.05-0.15 weight% of tackifier, 0.3-0.5 weight% of antifoaming agent, and 0.05-0.15 weight% of coalescing agent. The inorganic pigment comprises 62.5-72.5 weight% of granular ammonite of 20-26 micron, 5-10 weight% of monazite of 20-26 micron, and 20-30 weight% of imogolite. The monazite contains 5-17 weight% of thorium oxide.

Description

The Paint for Prevention Dew Condensation and Method Producting Thereof}

The present invention relates to an anti-condensation paint and a method for manufacturing the same, and more particularly, by absorbing moisture in the atmosphere on the surface of a subject by using hygroscopicity and breathability of nano-sized porous imogolite. The present invention relates to a condensation preventing paint and a method of manufacturing the same, which suppresses the amount of moisture and usually releases moisture contained therein.

In general, building structures use a variety of insulation materials to keep the room temperature as constant as possible without being affected by external weather conditions. However, despite the use of such insulation, the heat loss rate due to the temperature difference between the inside and outside of the building is high, which is a large factor of energy waste.

Therefore, in order to control the humidity of indoor air, moisture is released to the outside or a dehumidifier is installed.However, condensation is generated due to the temperature difference between the indoor air and the concrete wall. Was intended.

Existing buildings generally use thermal insulation materials such as expanded polystyrene, glass wool, asbestos, etc. to block heat conduction from the outside, and water-based paints are used for separate purposes in consideration of aesthetics on the exterior of the building.

However, the thermal insulation effect is not certain with the existing insulation alone, so the energy utilization efficiency is not high when cooling and heating.In order to increase the insulation and condensation prevention effect when using the existing insulation, the thickness of the insulation must be thick and the material characteristics in using the insulation material. In addition, the thickness of the wall is thickened in proportion to the thickness of the insulation, so that the actual use area of the building is reduced and the construction cost is inevitable.

Therefore, an insulating paint, a paint developed to give the maximum insulation and condensation prevention effect of buildings by adding ceramic insulation materials with special properties to radiate and radiate heat, was developed.For safety reasons, such as oil storage tanks, In addition to the field that needs to shield the heat, in order to prevent condensation and increase the energy efficiency, it is used in the exterior walls of ordinary houses or apartments.

As the heat insulating paint, ceramic powder mainly composed of SiO ₂ and Al ₂ O ₃ and paints mixed with calcium carbonate (Korean Patent No. 10-0500601) were mainly used. Paint (Korean Patent Publication No. 10-2010-0085472) has been published.

However, such a conventional paint is not only difficult to evenly disperse the ceramic and inorganic pigment powder in the paint, there is a problem that the ceramic powder is settled when the paint is left for a long time. In addition, since airgel is expensive and not easy to handle, its use is very limited.

In addition, the conventional condensation prevention method is to prevent the dew condensation due to the insulation effect rather than the moisture absorption in the air as a cause is not the fundamental condensation prevention.

The present invention is to solve the conventional problems as described above, the object of the present invention is to use a coating film thickness of 1mm or less using an emulsion resin having excellent water resistance and breathability, pigment and imogolite excellent in hygroscopicity It absorbs moisture from the air on the surface of the object, suppresses surface condensation at the dew point, and realizes an anionic and antimicrobial effect simultaneously with an aqueous coating manufacturing technology having a coating film function of repeating a function of releasing moisture contained in a normal time. It is to provide an anti-condensation paint and a method of manufacturing the same.

In order to achieve the object of the present invention as described above, the anti-condensation paint according to the present invention is 31 to 43% by weight of water; 0.05-0.15 weight percent antimicrobial agent; 0.2 to 0.4 weight percent dispersant; 30-50% by weight of inorganic pigments; 17 to 27% by weight of acrylic emulsion resin; 0.05 to 0.15 weight percent thickener; Antifoaming agent of 0.3 to 0.5% by weight; And 0.05 to 0.15% by weight of a film forming agent; Characterized in that formed.

In the anti-condensation paint according to the present invention, the inorganic pigment includes 62.5 to 72.5 wt% of chrysanthemum stone 20 to 26 μm granular, 5 to 10 wt% of monazite 20 to 26 μm granular, and 20 to 30 wt% of imogolite Characterized in that formed.

In the anti-condensation paint according to the present invention, the monazite is characterized in that it contains 5 to 17% by weight of thorium oxide.

In the anti-condensation paint according to the present invention, the imogolite is 70% by weight of the aqueous solution of perchloric acid at a concentration of 0.1 to 3 mol, and 30% by weight of the mixed solution of tetraethoxysilane and aluminum chloride in a weight ratio of 1: 2. The mixture is characterized in that formed by including sodium hydroxide so that the pH is 7 to 8.

In order to achieve the object of the present invention as described above, the anti-condensation paint production method according to the present invention is a first step of mixing 0.05 ~ 0.15% by weight of the antimicrobial agent in 31 to 43% by weight of water; A second step of mixing 0.2 to 0.4 wt% of a dispersant in the resulting material; A third step of mixing an inorganic pigment of 30 to 50 wt% with the material produced in the second step; A fourth step of mixing 17 to 27% by weight of a water-soluble acrylic emulsion resin with the material produced in the third step; A fifth step of mixing 0.05 to 0.15% by weight of a thickener with the material produced in the fourth step; A sixth step of mixing 0.3 to 0.5 wt% of an antifoaming agent with the material produced in the fifth step; And a seventh step of mixing 0.05 to 0.15% by weight of the deposition agent in the sixth step.

In the anti-condensation paint manufacturing method according to the present invention, in the third step, the inorganic pigment is 62.5 ~ 72.5% by weight of chrysanthemum of 20 ~ 26 ㎛ granular and 5 ~ 10% by weight of monazite of 20 ~ 26 ㎛ granular and imogolite It is characterized by including 20 to 30% by weight.

In the method for producing a condensation preventing paint according to the present invention, the monazite is characterized in that it contains 5 to 17% by weight of thorium oxide.

In the method for preparing anti-condensation paint according to the present invention, the imogolite is 70% by weight of the aqueous solution of 0.1-3 mol perchlorate and 30% by weight of the mixed ratio of tetraethoxysilane and aluminum chloride in a weight ratio of 1: 2. After mixing, characterized in that formed by including sodium hydroxide so that the pH is 7 ~ 8.

The present invention is easy to construct a coating film, even if the coating film of less than 1mm thickness to prevent moisture condensation by repeating the absorption or release of moisture in the atmosphere to further increase the thermal insulation effect of the insulation material to maintain a constant temperature in the room and Excellent deodorization and antibacterial effect.

1 is a flow chart showing a method for manufacturing anti-condensation paint according to an embodiment of the present invention.
2 is a flow chart showing a method for producing an inorganic pigment according to an embodiment of the present invention.
Figure 3 is a flow chart showing a method for producing imogolite according to an embodiment of the present invention.

Hereinafter, the present invention will be described in more detail.

The anti-condensation paint according to the present invention is formed by containing water and antibacterial agent, dispersant, inorganic pigment, acrylic emulsion resin, thickener defoamer and film forming agent.

The preferred mixing ratio of the material constituting the anti-condensation paint is 31 to 43% by weight of water (most preferably 37% by weight), 0.05 to 0.15% by weight of antimicrobial agent (most preferably 0.1% by weight), and 0.2 to 0.4% by weight of dispersant. % (Most preferably 0.3% by weight), inorganic pigment 30-50% by weight (most preferably 40% by weight), acrylic emulsion resin 17-27% by weight (most preferably 22% by weight), thickener 0.05-0.15 Weight% (most preferably 0.1 weight%), antifoaming agent 0.3 to 0.5 weight% (most preferably 0.4 weight%) and film forming agent 0.05 to 0.15 weight% (most preferably 0.1 weight%).

The antimicrobial agent and dispersant, thickener, antifoaming agent and film forming agent are generally used in the art and are not limited thereto.

The inorganic pigment is composed of chrysanthemum, monazite and imogolite, and the preferred mixing ratio is 62.5 to 72.5% by weight (most preferably 67.5% by weight) of chrysanthemum and 5 to 10% by weight of monazite (most preferably 7.5%). %) And 20-30% by weight of imogolite (most preferably 25% by weight).

In addition, the preferred size of the chrysanthemum and monazite is 20 ~ 26 ㎛ granular, the preferred size of the imogolite is 0.01 ~ 0.05 ㎛ granular.

Since the particle size variation of the chrysanthemum stone, monazite, and imogolite is large, it is difficult to mix the inorganic pigments directly, so it is preferable to mix using a vibration mill.

Chrysanthemum is a mineral crystal of minerals that penetrates into the rock, and forms a variety of petal-like crystals. Because of this, they often look like fossils.

Since the chrysanthemum receives light energy, electrons continue to move, and holes are generated in various places, thus semi-permanently antibacterial, sterilizing, and deodorizing, as well as organic matter decomposition and herbicidal functions.

The monazite preferably contains 5 to 17% by weight of thorium oxide, and the monazite containing the thorium oxide releases anions.

The imogolite is mixed with 70% by weight of an aqueous solution of perchloric acid at a concentration of 0.1 to 3 moles (most preferably 0.1 mole) and 30% by weight of a mixed solution of tetraethoxysilane and aluminum chloride in a weight ratio of 1: 2. It is preferably prepared by heating to 60 ~ 80 ℃ (preferably 80 ℃) and reacted for 1 to 3 hours (most preferably 1 hour).

The aqueous solution of perchloric acid at a concentration of 0.1 to 3 moles is prepared by adding perchloric acid to distilled water and reacting for 2 hours.

 In addition, since the imogolite exhibits an acidity of 2 to 3.5, it is preferable to neutralize the pH to 7 to 8 by adding sodium hydroxide which is strongly alkaline.

In addition, the imogolite, which is neutralized and has a pH of 7 to 8, is washed after desalting with a 20,000 RPM centrifuge, and heated and dried at 100 to 300 ° C. for 2 days, thereby obtaining a preferred imogolite for use in the present invention. .

However, the imogolite used in the present invention is preferably described above, but is not limited thereto, and various commercially available products can be used.

Method for producing a condensation preventing paint according to the present invention is a first step (S1) of mixing 0.05 to 0.15% by weight of the antimicrobial agent in 31 to 43% by weight of water, 0.2 in the material produced in the first step (S1) The second process (S2) of mixing the dispersant of 0.4% by weight, the third process (S3) of mixing the inorganic pigment of 30 to 50% by weight with the material produced in the second process (S2), the third process In the fourth step (S4) of mixing 17 to 27% by weight of the water-soluble acrylic emulsion resin to the material produced in (S3), 0.05 to 0.15% by weight of a thickener is mixed to the material produced in the fourth process (S4) In the fifth process (S5), the sixth process (S6) and the sixth process (S6) of 0.05 to 0.15% by weight of mixing the antifoaming agent 0.3 ~ 0.5% by weight to the material produced in the fifth process (S5) It consists of a 7th process (S7) of mixing a film forming agent.

The antibacterial agent in the first step (S1) and the dispersant in the second step (S2), the thickener in the fifth step (S5), the antifoaming agent in the sixth step (S6) and the seventh step (S7) The film forming agent in is generally used in the art, and its kind is not limited.

The inorganic pigment is composed of chrysanthemum, monazite and imogolite, and the preferred mixing ratio is 62.5 to 72.5% by weight (most preferably 67.5% by weight) of chrysanthemum and 5 to 10% by weight of monazite (most preferably 7.5%). %) And 20-30% by weight of imogolite (most preferably 25% by weight).

In addition, the preferred size of the chrysanthemum and monazite is 20 ~ 26 ㎛ granular, the preferred size of the imogolite is 0.01 ~ 0.05 ㎛ granular.

Since the particle size variation of the chrysanthemum, monazite, and imogolite is large, it is not possible to directly mix the inorganic pigment, and it is preferable to mix using a vibration mill.

The monazite preferably contains 5 to 17% by weight of thorium oxide, and the monazite containing the thorium oxide releases anions.

The imogolite is mixed by mixing 70 wt% of an aqueous solution of perchloric acid at a concentration of 0.1 to 3 mol (most preferably 0.1 mol) with 30 wt% of a mixed solution of tetraethoxysilane and aluminum chloride in a weight ratio of 1: 2. It is preferably prepared by heating to 95 ° C. (most preferably 80 ° C.) and reacting for 1-3 hours.

The perchloric acid of the 0.1 ~ 3 molar concentration is prepared by putting perchloric acid in distilled water and reacted for 2 hours.

Since the imogolite exhibits an acidity of 2 to 3.5, it is preferable to neutralize the pH to 7 to 8 by adding sodium hydroxide which is strongly alkaline.

In addition, the imogolite, which is neutralized and has a pH of 7 to 8, is washed after desalting with a 20,000 RPM centrifuge, and heated and dried at 100 to 300 ° C. for 2 days, thereby obtaining a preferred imogolite for use in the present invention. .

However, the imogolite used in the present invention is not limited thereto, and various products disclosed on the market can be used.

Imogolites used in the production of anti-condensation paints according to the invention are prepared as follows.

First, perchloric acid is reacted with distilled water by heating to 80 ° C. for 2 hours in order to prepare a 0.1 molar perchloric acid solution.

A mixed solution of tetraethoxysilane and an aqueous aluminum chloride solution in a weight ratio of 1: 2 was added to the aqueous solution of perchloric acid at a 0.1 molar concentration and reacted for 1 hour.

Since the pH of the mixed solution thus reacted shows an acidity of 3 to 5, sodium hydroxide is added so that the pH of the mixed solution is 7 to 8.

The imogolite used in the present invention can be obtained by adding the sodium hydroxide and desalting the mixed solution having a pH of 7 to 8 with a centrifuge at 20000 RPM, then washing and heating at 100 ° C. or higher for 2 days. .

However, the imogolite used in the present invention is preferably manufactured according to the above-described contents, but is not limited thereto, and various commercially available products may be used.

The inorganic pigment is composed by mixing 67.5 wt% chrysanthemum stone, 7.5 wt% monazite and 25 wt% imogolite.

Preferred sizes of the chrysanthemum and monazite are 20 to 26 μm granular, and preferred sizes of the imogolite are 0.01 to 0.05 μm granular.

Since the inorganic pigment is difficult to disperse because the particle size variation of chrysanthemum, monazite and imogolite is large, it is mixed using a vibration mill.

The materials are prepared by mixing at 1000 RPM for 30 minutes using a dissolva.

The viscosity of the anti-condensation paint prepared in this way is 125Ku (Krebs-Stomer Viscometer).

As described above, the anti-condensation paint according to the present invention and its manufacturing method are only examples, and the present invention is not limited to the above-described embodiments, without departing from the gist of the present invention as claimed in the following claims. Anyone with ordinary knowledge in the field of the present invention will have the technical spirit of the present invention to the extent that it can be variously modified.

Claims (8)

31 to 43 weight percent water;
0.05-0.15 weight percent antimicrobial agent;
0.2 to 0.4 weight percent dispersant;
30-50% by weight of inorganic pigments;
17 to 27% by weight of acrylic emulsion resin;
0.05 to 0.15 weight percent thickener;
Antifoaming agent of 0.3 to 0.5% by weight; And
0.05 to 0.15% by weight of a film forming agent;
Condensation prevention paint, characterized in that formed including. According to claim 1, wherein the inorganic pigment is 20 to 26 ㎛ granular chrysanthemum 62.5 ~ 72.5 wt%, 20 to 26 ㎛ granular monazite 5 ~ 10 wt% and Imogolite 20 to 30 wt% Anti-condensation paint made. 3. The anti-condensation paint of claim 2, wherein the monazite contains 5 to 17 wt% of thorium oxide. According to claim 2, wherein the imogolite is mixed with 70% by weight of aqueous solution of perchloric acid at a concentration of 0.1 to 3 mol, and 30% by weight of a mixed solution of tetraethoxysilane and aluminum chloride in a weight ratio of 1: 2, pH Condensation prevention paint, characterized in that formed by containing sodium hydroxide so that 7 to 8. A first step (S1) of mixing 0.05 to 0.15% by weight of the antimicrobial agent to 31 to 43% by weight of water;
A second step (S2) of mixing 0.2 to 0.4 wt% of a dispersant with the material produced in the first step (S1);
A third step (S3) of mixing an inorganic pigment of 30 to 50% by weight with the material produced in the second step (S2);
A fourth step (S4) of mixing 17 to 27% by weight of a water-soluble acrylic emulsion resin with the material produced in the third step (S3);
A fifth step (S5) of mixing a thickener of 0.05 to 0.15% by weight with the material produced in the fourth step (S4);
A sixth step (S6) of mixing 0.3 to 0.5 wt% of an antifoaming agent with the material produced in the fifth step (S5); And
A seventh step (S7) of mixing 0.05 to 0.15% by weight of the deposition agent in the sixth step (S6);
Method for producing a condensation preventing paint, characterized in that consisting of. [6] The method of claim 5, wherein in the third step (S3), the inorganic pigment is 62.5-72.5% by weight of chrysanthemum granules with 20 to 26 μm granules, 5 to 10% by weight monazite with 20 to 26 μm granular particles and 20 to 30 imogolites. It comprises weight%, The manufacturing method of the anti-condensation paint characterized by the above-mentioned. 7. The method of claim 6, wherein the monazite contains 5 to 17 wt% of thorium oxide. According to claim 6, wherein the imogolite is a pH of 0.1 to 3 molar concentration of 70% by weight of perchloric acid aqueous solution, tetraethoxysilane and aluminum chloride 30% by weight of the mixture of the mixture ratio of 1: 2 Method for producing a condensation preventing paint, characterized in that formed by containing sodium hydroxide so as to be 7 to 8.

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