Exterior wall heat-insulating paint
technical field:
The present invention relates to building material technical field, specifically a kind of be specially adapted to that skin thermal insulation layer uses can effectively reduce energy consumption, improve the exterior wall heat-insulating paint of building energy conservation effect.
background technology:
Coating is one of indispensable material of building field, and its Main Function is protection building surface, makes it have waterproof, resistant, the feature such as attractive in appearance, and according to the needs of different occasions, coating can also have heat insulation, the resistance to function such as tan by the sun.Existing exterior wall heat-insulating paint because tack is not good, tends to occur cracking, the situation of peeling off after construction completes, and cannot realize the protection to skin, and not attractive in appearance.
Adopt of existing skin thermal-insulating scheme adds insulating layer of external wall realization more, generally that the materials such as porous plastics or rigid plastics are fixed on to building masonry wall outside with glue paste, as thermal insulation layer, realize the object of exterior-wall heat insulation, but this scheme working procedure is many, cause the duration to be spun out, and the material using is difficult for reclaiming, easily to environment, bring pollution, in addition, the more important thing is, the insulating layer of external wall material of construction using is at present inflammable class material often, brings hidden danger to people's life security.
summary of the invention:
The present invention is directed to the shortcoming and defect existing in prior art, propose a kind of be specially adapted to that skin thermal insulation layer uses can effectively reduce energy consumption, improve the exterior wall heat-insulating paint of building energy conservation effect.
The present invention reaches by following measures:
An exterior wall heat-insulating paint, is characterized in that comprising following each component:
Mica powder, ACRYLIC EMULSION, butylacetate, ethylene glycol, thickening material, dispersion agent, defoamer, talcum powder, kaolin powder, Natvosol, lignocellulose, mould inhibitor, perlite powder, glass wool, vermiculite power, water.
In the present invention, each assembly ratio is preferably: mica powder 15-30 part, ACRYLIC EMULSION 10-25 part, butylacetate 3-15 part, ethylene glycol 5-10 part, thickening material 0.5-1.0 part, dispersion agent 1.3-2.8 part, defoamer 0.4-1.2 part, talcum powder 8-15 part, kaolin powder 5-10 part, Natvosol 0.6-1.2 part, lignocellulose 10-25 part, mould inhibitor 0.4-1.5 part, perlite powder 10-20 part, glass wool 3-10 part, vermiculite power 5-10 part, water 50-120 part.
In the present invention, thickening material is polyurethane thickener, and the fineness of perlite powder is 800-1000 order, and mica powder is 1600 order-2000 orders, and the fineness of kaolin powder is preferably 700-1200 order, and talcous fineness is preferably 700-1250 order.
In the present invention, each component proportion is preferably: 20 parts of mica powders, 10 parts of ACRYLIC EMULSION, 9 parts of butylacetates, 6 parts of ethylene glycol, 0.9 part of thickening material, 1.4 parts of dispersion agents, 0.6 part of defoamer, 9 parts of talcum powder, 9 parts of kaolin powders, 0.8 part of Natvosol, 12 parts of lignocelluloses, 1.2 parts of mould inhibitors, 15 parts of perlite powders, 5 parts of glass wools, 5 parts of vermiculite powers, 60 parts, water.
In the present invention, each component proportion is preferably: 25 parts of mica powders, 12 parts of ACRYLIC EMULSION, 6 parts of butylacetates, 5.5 parts of ethylene glycol, 0.8 part of thickening material, 1.3 parts of dispersion agents, 0.5 part of defoamer, 10 parts of talcum powder, 7 parts of kaolin powders, 0.6 part of Natvosol, 14 parts of lignocelluloses, 0.9 part of mould inhibitor, 13 parts of perlite powders, 4 parts of glass wools, 5 parts of vermiculite powers, 65 parts, water.
In the present invention, each component proportion is preferably: 22 parts of mica powders, 22 parts of ACRYLIC EMULSION, 7 parts of butylacetates, 7 parts of ethylene glycol, 0.7 part of thickening material, 1.4 parts of dispersion agents, 0.7 part of defoamer, 11 parts of talcum powder, 6 parts of kaolin powders, 0.7 part of Natvosol, 15 parts of lignocelluloses, 1.1 parts of mould inhibitors, 16 parts of perlite powders, 6 parts of glass wools, 6 parts of vermiculite powers, 75 parts, water.
In the present invention, each component proportion is preferably: 20 parts of mica powders, 15 parts of ACRYLIC EMULSION, 12 parts of butylacetates, 8 parts of ethylene glycol, 0.6 part of thickening material, 1.8 parts of dispersion agents, 0.8 part of defoamer, 14 parts of talcum powder, 5 parts of kaolin powders, 1.1 parts of Natvosols, 20 parts of lignocelluloses, 1.2 parts of mould inhibitors, 15 parts of perlite powders, 6 parts of glass wools, 7 parts of vermiculite powers, 80 parts, water.
The present invention compared with prior art, by adding thickening material and Natvosol, lignocellulose, can effectively improve snappiness and the film forming ability of coating, by adding kaolin and talcum powder, improve coating surface fineness, by adding mica powder, can effectively improve the reflective of dope layer, by interpolation vermiculite power, perlite powder, glass wool, effectively improve the heat-insulating property of coating, thereby reach energy-conservation effect.
embodiment:
Below in conjunction with embodiment, the present invention is further illustrated.
embodiment 1:
In the present invention, each assembly ratio is: 30 parts of mica powders, 15 parts, magnesium oxide, 15 parts of titanium oxide, 10 parts of ACRYLIC EMULSION, 9 parts of butylacetates, 6 parts of ethylene glycol, 0.9 part of thickening material, 1.4 parts of dispersion agents, 0.6 part of defoamer, 9 parts of talcum powder, 9 parts of kaolin powders, 0.8 part of Natvosol, 12 parts of lignocelluloses, 1.2 parts of mould inhibitors, 45 parts, water;
In the present invention, thickening material is polyurethane thickener, and mica powder is 2000 orders, and magnesium oxide and titanium oxide are all machined to nano level, and the fineness of kaolin powder is preferably 1200 orders, and talcous fineness is preferably 1200 orders.
embodiment 2:
In the present invention, each component proportion is: 22 parts of mica powders, 10 parts, magnesium oxide, 15 parts of titanium oxide, 12 parts of ACRYLIC EMULSION, 6 parts of butylacetates, 5.5 parts of ethylene glycol, 0.8 part of thickening material, 1.3 parts of dispersion agents, 0.5 part of defoamer, 10 parts of talcum powder, 7 parts of kaolin powders, 0.6 part of Natvosol, 14 parts of lignocelluloses, 0.9 part of mould inhibitor, 55 parts, water.
In the present invention, thickening material is polyurethane thickener, and mica powder is 1800 orders, and magnesium oxide and titanium oxide are all machined to nano level, and the fineness of kaolin powder is preferably 1200 orders, and talcous fineness is preferably 1250 orders.
embodiment 3:
In the present invention, each component proportion is: 20 parts of mica powders, 15 parts, magnesium oxide, 10 parts of titanium oxide, 22 parts of ACRYLIC EMULSION, 7 parts of butylacetates, 7 parts of ethylene glycol, 0.7 part of thickening material, 1.4 parts of dispersion agents, 0.7 part of defoamer, 11 parts of talcum powder, 6 parts of kaolin powders, 0.7 part of Natvosol, 15 parts of lignocelluloses, 1.1 parts of mould inhibitors, 50 parts, water.
In the present invention, thickening material is polyurethane thickener, and mica powder is 2000 orders, and magnesium oxide and titanium oxide are all machined to nano level, and the fineness of kaolin powder is preferably 1200 orders, and talcous fineness is preferably 1200 orders.
embodiment 4:
In the present invention, each component proportion is: 25 parts of mica powders, 15 parts, magnesium oxide, 12 parts of titanium oxide, 15 parts of ACRYLIC EMULSION, 12 parts of butylacetates, 8 parts of ethylene glycol, 0.6 part of thickening material, 1.8 parts of dispersion agents, 0.8 part of defoamer, 14 parts of talcum powder, 5 parts of kaolin powders, 1.1 parts of Natvosols, 20 parts of lignocelluloses, 1.2 parts of mould inhibitors, 60 parts, water.
In the present invention, thickening material is polyurethane thickener, and mica powder is 2000 orders, and magnesium oxide and titanium oxide are all machined to nano level, and the fineness of kaolin powder is preferably 1200 orders, and talcous fineness is preferably 1200 orders;
The present invention compared with prior art, by adding thickening material and Natvosol, lignocellulose, can effectively improve snappiness and the film forming ability of coating, by adding kaolin and talcum powder, improve coating surface fineness, by adding mica powder, can effectively improve the reflective of dope layer, add nano level magnesium oxide and titanium oxide simultaneously, realize the reflection of extraneous light, absorption, thereby reach energy-conservation effect.