KR101219687B1 - Insulation coating composition for preventing dew condensation - Google Patents

Abstract

The present invention relates to a heat-insulating coating composition for preventing condensation, in weight%, vinyl acetate resin: 10-15%, titanium dioxide: 5-8%, talc: 4-8%, calcium carbonate: 10-15%, borosilicate glass : 3-5%, insulation: 10-15%, diatomaceous earth: 1-2%, antifoam: 0.05-0.1%, dispersant: 0.1-0.5%, preservative: 0.05-0.2%, thickener: 0.5-1.0%, and the rest water; It provides a heat-insulating coating composition for preventing condensation.
According to the present invention, the coating is added to the inner and outer walls of the building as the insulation (INSULADD) is added to have excellent anti-condensation, heat insulation, heat shielding function, and also excellent anti-mildew, adhesion and durability.

Description

INSULATION COATING COMPOSITION FOR PREVENTING DEW CONDENSATION}

The present invention relates to a heat-insulating coating composition for preventing condensation, in particular to the coating composition having an excellent ability to prevent condensation while having an excellent condensation prevention, heat insulation, and heat shielding function as an insulator (INSULADD) is added to the interior and exterior walls of the building. It is about.

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, causing durability of the building and adversely affecting the living environment. 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 is not high when cooling and heating. In order to further increase the insulation and condensation prevention effect when the existing insulation is used, the thickness of the insulation must be thick. 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 heat insulating materials such as asbestos are environmental pollution products, it has a bad effect on the environment when used excessively, and existing heat insulating materials alone are difficult to adhere to the wall, so condensation occurs at the joints, and thus there is a limit to improving the heat insulating 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, even if the existing water-based paint is used as a thickener, it does not effectively prevent the sinking of the filler during storage after manufacture of the paint, so mixing again with a stirrer when using it later Inconvenient to use.

In this regard, a number of patents are disclosed, including registered patent 0679769, published patent 2001-0012007, and published patent 2004-0045548.

In particular, in the case of Patent Publication No. 2004-0045548, an acrylic copolymer emulsion, a calcium carbonate, a filler, a pigment, a dispersant, an antifoaming agent, and the like are added as a means for solving the above-mentioned problems, thereby preventing the precipitation during use, thereby reducing the inconvenience in use while maintaining thermal insulation. It can be seen as an example of the prevention of condensation.

However, since the present invention is one of the important factors in the adhesion and durability in consideration of the water-based paint, while meeting the basic conditions to prevent condensation by maximizing the condensation prevention function, even though a functional coating composition that can increase the thermal insulation required In the meantime, the prior arts have not been fully satisfied with these requirements, and the need for improvement has been continuously raised.

The present invention was created in view of the above-mentioned problems in the prior art, and has been developed to solve this problem, and has excellent insulation and anti-mildew and excellent adhesiveness and durability by applying an insulator which is not applied in the art. Its main purpose is to provide a kind of anti-condensation insulating coating composition.

The present invention is a means for achieving the above object, in weight%, vinyl acetate resin: 10-15%, titanium dioxide: 5-8%, talc: 4-8%, calcium carbonate: 10-15%, borosilicate Glass: 3-5%, Insulade: micron-sized micro hollow powder mainly composed of aluminum silicide: 10-15%, Diatomaceous earth: 1-2%, Antifoam: 0.05-0.1%, Dispersant: 0.1-0.5%, Preservative: 0.05-0.2%, thickener: 0.5-1.0%, and remaining water; It provides a heat-insulating coating composition for preventing condensation.

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Further, in order to prevent neutralization of the coated surface and to further enhance watertightness, magnesium fluoride: 0.8-1.2 parts by weight is further added to 100 parts by weight of the coating composition.

According to the present invention, the coating is added to the inner and outer walls of the building as the insulation (INSULADD) is added to have excellent anti-condensation, heat insulation, heat shielding function, and also excellent anti-mildew, adhesion and durability.

Hereinafter, preferred embodiments according to the present invention will be described in detail.

Before describing the present invention, the following specific structural or functional descriptions are merely illustrative for the purpose of describing an embodiment according to the concept of the present invention, and embodiments according to the concept of the present invention may be embodied in various forms, And should not be construed as limited to the embodiments described herein.

In addition, embodiments in accordance with the concepts of the present invention may be modified in various ways and may have various forms, specific embodiments will be described in detail herein. However, it should be understood that the embodiments according to the concept of the present invention are not intended to limit the present invention to specific modes of operation, but include all modifications, equivalents and alternatives falling within the spirit and scope of the present invention.

The present invention provides an insulation coating composition for preventing condensation, and in particular, the interior and exterior walls of buildings are applied by applying an environmentally friendly material, INSULADD, which was mainly used to block solar radiation by applying to the surface of the space shuttle in NASA. The research has been completed to be used to prevent melting furnace and maximize insulation performance.

To this end, the coating composition according to the present invention in weight%, vinyl acetate resin: 10-15%, titanium dioxide: 5-8%, talc: 4-8%, calcium carbonate: 10-15%, borosilicate glass: 3 -5%, insulation: 10-15%, diatomaceous earth: 1-2%, antifoam: 0.05-0.1%, dispersant: 0.1-0.5%, preservative: 0.05-0.2%, thickener: 0.5-1.0% and the rest of the water; Is done.

In addition, magnesium silicate: 0.8-1.2 parts by weight may be added to 100 parts by weight of the coating composition to prevent neutralization of the coated surface and further increase water tightness.

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In addition, defoamers, dispersants, preservatives, thickeners, etc. in the coating composition are commonly used in the art, most of them are added in small amounts, such as antifoaming agent to prevent the pin hole (pore) caused by bubbles after applying the paint The alcohol or organophosphate is preferably added to keep the surface smooth, and the dispersant is added to facilitate the dispersion of the additive in the manufacturing process of the paint. In general, various surfactants are used, and preservatives prevent or inhibit rot. Methylparaben is preferred for this purpose, and the thickener is for controlling viscosity, and inorganic thickeners such as clay minerals such as magnesium and silicate are preferable.

Therefore, these antifoaming agents, dispersing agents, preservatives, thickeners and the like are functional additives, and since they are usually used in a small amount in the art, they do not have characteristics as special components in the present invention.

In addition, the vinyl acetate resin is a material used as a binder, and the composition organically connects the components so that the composition has sufficient mechanical strength. In the present invention, it should be added as 10-15% by weight, if 10% If the amount is less than%, the plasticity is lowered and the elasticity is inhibited. If the content is more than 15% by weight, the bonding force is increased to inhibit the lubricity and the mixing property.

In addition, the titanium dioxide (R TiO ₂ ) is added to brighten the bleaching and color, is mainly used as a white pigment and photocatalyst, commonly referred to as a 'fat sugar' by the user.

Titanium dioxide is chemically very stable and harmless to the human body, made of white powdered powder, widely used in almost all fields such as plastic, paint, medicine, paper, pottery.

In particular, depending on the form is divided into anatase and rutile, anatase A titanium dioxide, rutile is called R titanium dioxide, in the present invention uses R titanium dioxide.

R titanium dioxide added in the present invention is formulated in the form of powder, when added in less than 5% by weight is difficult to implement bleaching and color, and exceeds 8% by weight is overbleached to cause color defects and imbalances, so limited to the above range It must be formulated.

In addition, the talc is added for dilution, viscosity control, and lubricity improvement, and when added below 4% by weight, dilution and lubricity are lowered, and when it exceeds 8% by weight, the viscosity is sharply lowered within the above range. Limited is preferred.

In addition, the calcium carbonate is preferably added in order to enhance the adhesion and to suppress the phenomenon of the inside visible by forming a coating film to give a thickness of 10 to 15% by weight.

At this time, if excessively added more than 15% by weight, the specific gravity is increased to be heavy, durability is significantly reduced, when added to less than 10% by weight should be limited to the above range because the adhesive strength is weakened.

In addition, the borosilicate glass is composed of 80% by weight of silicic acid powder and the remaining boric acid powder and other unavoidable components are added to reinforce the crack prevention.

That is, the borosilicate glass has excellent thermal shock resistance, chemical durability, and low thermal expansion rate, so that thermal expansion and shrinkage are small, thereby suppressing crack generation and improving adhesion.

In this case, when the borosilicate glass is added in less than 3% by weight, the effect of cracking is lowered, and when the amount of the borosilicate glass is added in excess of 5% by weight, the effect of cracking is excellent but the permeability is sharply lowered, so the water permeability is sharply limited. Do.

In addition, the insulation is a micron-sized hollow hollow powder mainly composed of aluminum silicide, and is an environmentally friendly material having no harmful heavy metals having heat shielding and heat resistance of a closed air layer, as well as volatile organic compounds and toxicity.

It has excellent durability and heat resistance, and in particular, it has excellent solar radiation heat shielding performance and is used as a surface shuttle coating agent in NASA.

However, since it is in the form of a fine powder, uniform dispersibility is very important when constructing the coating composition. For this purpose, the dispersant described above should be appropriately controlled and added with sufficient agitation.

In particular, the insulation has a sphere made of an independent cavity, that is, a closed cell structure to form a vacuum therein, and thus has a high durability and temperature resistance, a resistance to moisture intrusion, and an airtight skin on the surface. As a result, it forms a heat-insulating layer with strong water resistance and moisture resistance, has a very strong effect on acids and alkalis, has excellent chemical resistance, and the main material and molecular structure have a chemically very safe structure, and its life is semi-permanent. It was confirmed that the superiority.

In the present invention, it should be added in an amount of 10-15% by weight in consideration of the advantages of the insulation and considering the ratio of the components of diatomaceous earth to be described later, which is added to strengthen the anti-condensation and the relationship with other antimicrobial magnesium magnesium fluoride.

If the insulation is added less than 10% by weight, anti-mildew and condensation-resistant properties are inferior, when added in excess of 15% by weight should be limited to the above range because of poor mixing and lubricity.

In addition, the diatomaceous earth is used for the purpose of inhibiting the moisture in contact with the surface of the coating film to prevent moisture from changing to dew by excellent moisture absorption function, in the present invention, 1 to 2% by weight in consideration of adhesion and fluidity It is preferred to add in the range.

In addition, the magnesium silicate should be added in a small amount to reduce the hydration temperature, to suppress cracking, to improve the watertightness to prevent neutralization, and to strengthen the antibacterial, as described above in the range of 0.8-1.2% by weight It is preferable to be.

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When the coating composition according to the present invention having such a component composition is sufficiently mixed and stirred on the inner and outer walls of the building, the coating composition does not generate condensation even at a temperature change of more than -20 ° C, and provides excellent thermal insulation.

Hereinafter, examples will be described.

[Example]

In order to check the properties (physical properties) of the coating composition according to the present invention made the invention examples 1, 2 consisting of the following composition, applied to a concrete surface with a thickness of 1mm, and dried for 3 days prior art The adhesiveness with the product), coating adhesion, accelerated weather resistance and anti-condensation were evaluated and shown in Table 1.

At this time, the invention example 1 was composed only with the lower limits of the composition ratio of the present invention, the invention example 2 was composed only with the upper limits of the composition ratio of the present invention.

division
Inventory 1
Honor 2
Conventional example
Test Methods
Attachment
1.8N / ㎡
2.1N / ㎡
1.2N / mm2
Adhesion tester
Paint adhesion
Good
Good
Bad
JIS K 5400
Weathering resistance
clear
clear
clear 1000 hours, check for choking
Condensation Prevention
No condensation
No condensation
Condensation At -18 ℃ for 24 hours

As shown in Table 1, the coating composition according to the present invention was confirmed to have excellent adhesion and excellent durability compared to the conventional, in particular, no condensation occurred even under the condition of -18 ℃.

In addition, heat insulation maintained the same or more as the conventional example.

Therefore, the coating composition according to the present invention was confirmed to have environmentally friendly and excellent condensation prevention properties, heat insulation properties and adhesion, and is expected to have a large use in the art.

Claims (3)

By weight,
Vinyl acetate resin: 10-15%, titanium dioxide: 5-8%, talc: 4-8%, calcium carbonate: 10-15%, borosilicate glass: 3-5%, micron size mainly composed of aluminum silicide Insulade: fine particle powder: 10-15%, diatomaceous earth: 1-2%, antifoam: 0.05-0.1%, dispersant: 0.1-0.5%, preservative: 0.05-0.2%, thickener: 0.5-1.0%, and
Remaining water; Insulating coating composition for preventing condensation, characterized in that consisting of.
delete The method according to claim 1;
Magnesium fluoride: 0.8-1.2 parts by weight is further added to 100 parts by weight of the coating composition to prevent neutralization of the coated surface and to further enhance watertightness.