KR20000032034A - Paint for preventing vapor condensation - Google Patents

Abstract

PURPOSE: A paint is prepared by addition of a porous siliceous earth, talc powder and titanium in the resin composition. CONSTITUTION: The title paint comprises 40-50 weight % of inorganic powder containing the porous siliceous earth and talc powder, 45-55 weight % of resin compound containing acrylic ester, ethylene-vinyl acetate copolymer and methanol, 3-6 weight % of titanium, 0.1-0.5 weight % of dispersing agent, 0.1-0.5 weight % of defoaming agent and 0.1-0.5 weight % of emulsifier. Thus, 70 weight % of porous siliceous earth and 30 weight % of talc powder are mixed and stirred with 45 weight % of acrylic ester, 45 weight % of ethylene-vinyl acetate copolymer and 10 weight % of methanol at 15 deg.C to give resin compound. 45 weight % of the inorganic powder and 49.5 weight % of resin compound are stirred at 15°C, followed by addition of 4.5 weight % of titanium, 0.3 weight % of dispersing agent, 0.3 weight % of defoaming agent and 0.4 weight % of emulsifier for 2 hours to give the title paint.

Description

Condensation prevention paint

The present invention relates to a paint for preventing condensation of a structure, and more particularly, to prepare a paint that can retain moisture in the air at a dew point, and to apply a coating film of a suitable thickness to the structure to the internal and external temperature of the structure. The present invention relates to a functional condensation preventing paint that can prevent condensation due to a difference and prevent rot and corrosion of a structure.

In general, the inner wall of a building, the inner wall of a roof structure, and the ceiling of an underground structure (hereinafter referred to as "structural") are constructed with the structure itself so as to be insulated from the outside to prevent condensation due to temperature difference from the outside, or the outside of the heat insulating material entering the structure. The paint is applied to the paint, but the paint is only a general paint having a function of paint and not a functional paint having an anti-condensation effect. Condensation prevention paints of conventional structures are prepared by changing the type and content of resins and additives, which are the main components of the paints, in order to use a general paint and to prevent condensation. However, paints produced in this way have excellent condensation prevention effects. There is a problem that can not.

Therefore, the conventional paint used for the prevention of condensation is not a condensation prevention function because it is a general coating and does not have an excellent condensation prevention effect and is limited in terms of its use. There are problems such as excessive water generation, structure corrosion, mold generation, pollution, environmental protection and safety management.

The present invention is to solve the above problems, to prepare a paint by mixing porous diatomaceous earth, talc powder and titanium, which is an inorganic material, such as resin and additive, which is a conventional paint component, and the prepared paint inside the structure It is to provide a condensation prevention paint excellent in the condensation prevention effect without increasing the manufacturing cost by applying a constant thickness to hold the moisture in the air in the fine structure of the paint at the dew point.

In order to achieve the object of the present invention as described above, the present invention produces a condensation prevention paint by mixing porous diatomaceous earth, talc powder and titanium as an inorganic material, such as resin and additives as a coating component. Condensation prevention paint of the present invention

a) 40-50% by weight of inorganic powder mixed with 70-80% by weight of porous diatomaceous earth and 20-30% by weight of talc powder;

b) 45-55% by weight of a mixture of 40-50% by weight of acrylic acid ester, 40-50% by weight of ethylene-vinyl acetate copolymer and 5-15% by weight of methanol;

c) 3-6 weight percent of titanium;

d) 0.1-0.5% by weight of dispersant;

e) 0.1-0.5% by weight of antifoam; And

f) 0.1-0.5 wt% emulsifier

It is prepared by mixing.

Hereinafter, the present invention will be described in detail.

In order to produce an effective and economical anti-condensation paint according to the present invention, first, an inorganic powder is prepared by uniformly mixing 70-80% by weight of conventional porous diatomaceous earth and 20-30% by weight of talc powder, and acrylic acid ester 40 A resin mixture is prepared by adding -50% by weight, 40-50% by weight ethylene vinyl acetate copolymer and 5-15% by weight methanol to a reactor at a temperature of 10-20 ° C, preferably 15 ° C, while maintaining the temperature. In this case, if the temperature is 10 ° C. or lower or 20 ° C. or higher, it is important to maintain the temperature because the resin mixture is not uniformly produced. 40-50% by weight of the inorganic powder prepared above was added to 45-55% by weight of the prepared resin mixture, and stirred for 2-3 hours while maintaining a temperature of 15 ° C. to prepare a uniform inorganic powder solution. Methanol may be added to the prepared inorganic powder solution for adjustment. Into the prepared inorganic powder solution, 3-6% by weight of titanium and 0.3-1.5% by weight of additives (0.1-0.5% by weight of dispersant, 0.1-0.5% by weight of antifoaming agent, and 0.1-0.5% by weight of emulsifier) were mixed to adjust necessary physical properties. And, if necessary, a pigment can be added to produce a paint of a desired color. The prepared paint is filtered and packaged in a conventional manner and kept sealed at room temperature.

In addition, the thermal conductivity, moisture absorption, emissivity and anti-mildew test of the paint according to the present invention is carried out in order to know the exact physical properties and condensation preventing effect of the paint prepared in the present invention. In order to know the condensation preventing effect of the paint prepared above, the prepared paint is applied to the inner wall of the general structure with a coating film of 0.5-1.5 mm, preferably 1.0 mm thick. If the thickness of the coating film is 0.5 mm or less, the condensation prevention effect is not excellent. If the thickness of the coating film is 1.5 mm or more, there is no significant difference in the condensation prevention effect. Before applying the condensation preventing paint of the present invention to the inner wall of the structure, the surface of the inner wall of the structure is cleaned using a general detergent in a conventional manner to remove contaminants attached to the surface of the structure and completely dry the surface of the structure. Mix for about 1 minute using a brush or roller before applying to the surface of the structure. Application of the paint of the present invention is carried out as follows. Firstly, the condensation preventing paint prepared above is thickly applied to the surface of the structure by using a brush or roller, etc. by a known method, and the surface of the first applied structure is completely dried, and then the second application is performed in the same manner as the first application. To form a coating of constant thickness on the surface of the structure. After the second coating, the thickness of the coating film is measured, and when the desired thickness is not reached, the third coating is performed so that the desired thickness is reached after the surface of the coating film is completely dried.

The condensation preventing paint of the present invention applied to the surface of the structure with a constant thickness strongly adsorbs the moisture in the air at the dew point and retains it in the microstructure of the coating film, and when the relative humidity is low, it is sensitively detected and retained in the microstructure. It has a function of desorbing moisture, which has been maintained for a long time.

The following presents a preferred embodiment to aid the understanding of the present invention. However, the following examples are provided only to more easily understand the present invention, and the present invention is not limited to the following examples.

Example

The present invention is to prepare an inorganic powder (A) by mixing 70% by weight of porous diatomaceous earth and 30% by weight of talc powder, 45% by weight acrylic acid ester, 45% by weight ethylene vinyl acetate copolymer and 10% by weight methanol in a reactor at a temperature of 15 ℃ The mixture was mixed with stirring to prepare a resin mixture (b), and then 45 wt% of the inorganic powder (a) and 49.5 wt% of the resin mixture (b) were mixed with stirring to prepare an inorganic powder solution. To this inorganic powder solution, 4.5 wt% titanium, 0.3 wt% dispersant, 0.3 wt% defoaming agent, and 0.4 wt% emulsifier are added to the inorganic powder solution while maintaining the temperature at 15 ° C., followed by mixing with stirring for 2 hours, and then the pigment according to the desired color. . The solution was filtered to prepare a condensation preventing paint. The thermal conductivity, hygroscopicity, emissivity and antifungal test on the prepared paints were carried out and the results are shown in Tables 1, 2 and 3.

Measurement of thermal conductivity, drying loss and moisture absorption of paint Test Items unit result Test Methods Thermal conductivity (average temperature: 20 ± 5 ℃) kcal / mh ℃ 0.13 KSL 9016-95 (plate heat flow metering method) Dry weight loss % 4.59 KSM 0009-95 Moisture absorption Relative Humidity205090 %%% 0.11 ^* 0.37 ^* 1.41 ^* KSA 2110-97

*: Water removal rate based on 1000 m ^{2 of} inner wall surface

Emissivity Measurement of Paints Emissivity (5-20 μm) Radiation energy (W / m ² ㎛, 40 ℃) 0.90 3.62 x 10 ²

Antifungal test of paint Test Methods Used strain Culture period and results ASTM G-21 1 week 2 weeks 3 weeks 4 Weeks Aspergillus niger ATCC 9642 Penicillium pinophilum ATCC 11797 Chatomium globosum ATCC 6205 0 ^* 0 0 0

*: Growth of bacteria in the sample is not recognized

As shown above, the paint of the present invention can remove a large amount of moisture as the relative humidity is increased based on the inner wall surface of the building 1000 m ^2, and particularly, when the relative humidity is 90%, 14.1 kg of moisture, emissivity This is 0.9 because the coating of the coating contains far-infrared rays, which can supply oxygen, so that fresh air can flow into the interior of the structure. No growth was found on the inner wall of the structure.

The present invention prevents condensation and decay of a structure by applying a condensation preventing paint prepared by mixing inorganic powders such as porous diatomaceous earth to a resin coating which is a conventional paint component with a predetermined coating thickness on the surface of the structure to prevent condensation. In addition, the conventional condensation insulation material is unnecessary, so that the use space of the structure can be relatively extended, and the condensation preventing paint has excellent adhesiveness and durability, and thus the condensation preventing effect is maintained for a long time. Since it can supply oxygen, there is an effect that fresh air can flow into the interior of the structure.

Claims (4)

a) 40-50% by weight of inorganic powder mixed with porous diatomaceous earth and talc powder; b) 45-55% by weight of a resin mixture of acrylic acid ester, ethylene vinyl acetate copolymer and methanol; c) 3-6 weight percent of titanium; d) 0.1-0.5% by weight of dispersant; e) 0.1-0.5% by weight of antifoam; And f) 0.1-0.5 wt% emulsifier Condensation preventing paint, characterized in that it is applied to the surface of the structure with a coating film of a constant thickness. The method of claim 1, The inorganic powder is a condensation preventing paint containing porous diatomaceous earth and talc powder in a weight ratio of 70:30 to 80:20. The method of claim 1, A condensation preventing paint containing the resin mixture 40-50% by weight acrylic acid ester, 40-50% by weight vinyl acetate copolymer and 5-15% by weight methanol. The method of claim 1, A condensation preventing paint having a thickness of 0.5 to 1.5 mm.