KR20040045548A - Water-based paint materials for heat insulating and dew condensation protecting - Google Patents

Abstract

PURPOSE: An aqueous paint composition for insulation and prevention of due condensation is provided, to prevent the sedimentation of a filler during storage. CONSTITUTION: The aqueous paint composition comprises 55-60 wt% of an acryl copolymer emulsion; 2-5 wt% of specific powder obtained by coating calcium carbonate on the surface of a polyacrylonitrile hollow micro spherical polymer material; 25-35 wt% of a filler; 5-10 wt% of a pigment; 1-5 wt% of a dispersant; and 1-5 wt% of an antifoaming agent.

Description

Water-based paint materials for heat insulating and dew condensation protecting}

The present invention relates to an aqueous coating composition for insulation and condensation prevention, and more particularly, for the interior and exterior walls and underground finishing paints of buildings whose surfaces are finished with cement buildings, mortars, concrete or other waterproofing materials, particularly excellent in preventing condensation. Genie relates to an insulating and anti-condensation coating composition.

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 big factor of energy waste.

On the other hand, in order to control the humidity of indoor air, a method of discharging moisture to the outside or installing a dehumidifier is used. However, dew condensation due to insulation because condensation is not generated due to the temperature difference between the indoor air and the concrete wall. It is intended to help prevent fundamental condensation by suppressing

Moisture inside the building and supersaturated water in the room cause mold growth, which does not produce a comfortable living environment, and the applied paint swells. There is room for improvement.

Existing buildings generally use thermal insulation materials such as foamed 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 during cooling and heating is not high, and the thickness of the insulation must be thicker to increase the insulation and condensation prevention effect when using the existing insulation. In addition, there is a restriction condition according to the material characteristics in using the insulation material, the thickness of the wall is thickened in proportion to the thickness of the insulation material, the actual use area of the building is reduced and the construction cost is inevitable.

In addition, since most of the insulation materials such as asbestos are environmental pollution products, it has a bad effect on the environment when used excessively, and it is difficult to adhere to the walls only with the existing insulation materials, so condensation is generated at the joints, so there is a limit to improving the insulation performance. In addition, due to the structural problems of the building itself, there are many problems, such as the presence of difficult or impossible to install the insulation.

On the other hand, as a problem of the interior and exterior wall finishing paint itself, the existing water-based paint, even if the thickener is used, it does not effectively prevent the sinking of the filler during storage after manufacturing the paint, so mixing again with a stirrer for future use Inconvenience to be used is caused.

Therefore, in the present invention, while looking for a method for utilizing the interior and exterior walls and underground finishing paints as part of a method for preventing insulation and condensation, the result of incorporating the special microsphere powder in the existing water-based paint to prevent precipitation, the stirrer at the time of use As a result, it was found that an excellent heat insulation and condensation prevention effect can be obtained without any inconvenience in use, such as stirring again, to complete the present invention.

Accordingly, it is an object of the present invention to provide a water-based coating composition excellent in thermal insulation effect, light weight effect, cost reduction effect and the like while preventing precipitation due to the filler.

The aqueous coating composition of the present invention for achieving the above object is a special powder coated with calcium carbonate, which is an inorganic powder, on the surface of a polyacrylonitrile hollow microsphere polymer material, with 55 to 60% by weight of an acrylic copolymer emulsion as a main component. It is characterized by consisting of 2 to 5% by weight, filler 25 to 35% by weight, pigment 5 to 10% by weight, dispersant 1 to 5% by weight and antifoaming agent 1 to 5% by weight.

The present invention will be described in more detail as follows.

The coating composition of the present invention relates to a finish paint for interior and exterior walls of buildings.

The aqueous coating composition according to the present invention contains an acrylic copolymer emulsion as a main component, as in conventional interior and exterior walls and underground finishing paints. It is preferable that the content is 55 to 60 weight% of the total aqueous coating composition.

In the present invention, a special powder is added to such an acrylic copolymer emulsion, wherein the special powder is prepared by coating calcium carbonate, which is an inorganic powder, on the surface of a thermoplastic hollow microsphere-like polymer material called polyacrylonitrile. Since such a special powder is lightweight, it is possible to achieve a lighter weight of the paint, which can prevent precipitation due to the addition of the filler, and the economic effect of lowering the price when selling by volume unit. And, due to the internal and external heat shielding effect to effectively prevent condensation, and also because of the hollow shape can achieve an insulating effect.

It is preferable to add such a special powder to 2 to 5% by weight of the total water-based paint composition. If the content is less than 2% by weight, the effect of addition is insignificant. As a result, the powder is separated onto the paint and the cost saving effect cannot be achieved.

The filler added in the aqueous coating composition of the present invention can mainly use calcium carbonate and talc, it is preferable to use so that 15 to 20% by weight of calcium carbonate and 10 to 15% by weight of talc when mixed. The content of the total filler is 25 to 35% by weight. If the content is less than 25% by weight, the production cost may be increased. If the content is more than 35% by weight, the physical properties of the paint may be deteriorated.

As described above, when a special powder coated with calcium carbonate, which is an inorganic powder, is used on the surface of the polyacrylonitrile hollow microsphere-shaped polymer material, the miscibility with such a filler is excellent.

In the aqueous coating composition, the pigment gives the color of the coating film in coating the paint, and can be used as long as it has hiding power and coloring power, good dispersibility, no spread, and no toxicity. Examples include titanium oxide and carbon black. . Use them to match colors. It is preferable that the general addition amount of a pigment is 5 to 10 weight% of the total aqueous coating composition.

In addition, the dispersant is added to facilitate the dispersion of the pigment in the manufacturing process of the paint, it is not particularly limited bar various surfactants can be used. It is preferable that the general addition amount of a dispersing agent is 1 to 5 weight% of all the aqueous paints.

In addition, the antifoaming agent is used to maintain a smooth surface by preventing pin holes caused by bubbles after applying the paint, it is preferable to use the amount of the dispersant and the antifoaming agent in a similar range.

According to the present invention, a coating composition using a special micro-spherical powder and a filler based on an acrylic copolymer emulsion is excellent not only in preventing condensation by heat insulation but also in light weight effect, cost saving effect, and coating precipitation prevention effect. Moreover, it has water resistance, weather resistance, durability, and solvent resistance as a coating material.

That is, the water-based paint of the present invention can effectively solve the condensation prevention due to the thermal barrier effect between the inside and outside of the building by applying a product coated with calcium carbonate, which is an inorganic powder, to the surface of the polyacrylonitrile hollow microsphere-like polymer material. In addition, the existing paints are precipitated by the filler, but the use of the special powder can achieve a lighter weight of the paint, which can be effective in terms of preventing precipitation and reducing the price when selling by volume unit. In addition, the hollow shape is effective in sound insulation as well as thermal insulation.

Hereinafter, the present invention will be described in detail with reference to Examples, but the present invention is not limited by the Examples.

Example 1

55% by weight of acrylic copolymer emulsion (SA-432, hydroxypolymer), 5% by weight of special powder (CA-100, SDI), 20% by weight of calcium carbonate (OMYA-10, manufactured by Dong-Oh Co., Ltd.), talc (KG-325) , 8% by weight of Youngwoo Enterprise, 10% by weight of titanium oxide (R-902, Dupont), 1% by weight of BYK-184 (byK) as dispersant, 1% of KM-73 (by Shin-Etsu Korea) as antifoaming agent % Was added and a stirred mixed paint composition was prepared.

Comparative Example 1

To prepare a coating composition with the same composition as in Example 1, but did not add a special powder.

The thermal conductivity, non-volatile content, drying time, weather resistance test, solvent resistance, swelling evaluation test, softening degree, impact resistance, and the presence or absence of precipitation were observed for the coating composition obtained according to the above Examples and Comparative Examples. Table 1 shows.

Test Items unit Example 1 Comparative Example 1 Test Methods Thermal conductivity kcal / ㎡hr ℃ 0.05 0.25 KS M 3808-97 (plate heat flow method) Nonvolatile matter % 65-70 60 to 65 KS M 5000 Drying time time One One KS M 5000 Weathering test clear clear KS M 5000 Content clear clear KS M 5971 Swelling assessment clear clear KS M 5973 Softness Μm 80-100 50-80 KS M 5000 Impact resistance clear clear KS F 4716 Precipitation radish U 7 days left after settling confirmation

In the results of Table 1, in the case of using the coating composition of the present invention in thermal conductivity measurement, it is about 0.05kcal / m 2 hr ° C, which is a thermal conductivity of 0.11 kcal / m 2hr ° C. The heat loss rate is much lower than that of Insulating Coatings Corporation, which is 0.10kcal / ㎡hr ℃. In addition, in the case of the coating composition of the present invention, the precipitation due to the filler does not occur even after the long-term standing, it can be seen that in the case of Comparative Example 1 precipitation occurs.

As described in detail above, according to the present invention, when a general coating composition for interior and exterior walls includes a special powder coated with calcium carbonate, which is an inorganic powder, on the surface of a polyacrylonitrile hollow microsphere polymer, In order to solve or supplement the shortcomings, it is possible to extend the life of the building by using it on the inside and outside walls of the building together with the insulation, the laminated composite method with other waterproofing materials, or by using it alone to prevent condensation due to the insulation. It can also contribute to reducing the cause of environmental pollution, one of the blind spots of oily products.

Claims (1)

Acrylic copolymer emulsion 55 to 60% by weight of the main component, the surface of the polyacrylonitrile hollow microsphere polymer material 2-5% by weight of special powder coated with calcium carbonate, inorganic powder, filler 25-35% by weight, pigment 5 Aqueous coating composition for heat insulation and condensation prevention which consists of adding -10 weight%, 1-5 weight% of dispersing agents, and 1-5 weight% of antifoamers.