CN100447359C - Method for making self-temperature-regulating phase-change heat-insulation wall and product thereof - Google Patents

Abstract

The invention discloses a temperature-selfadjusting phase transition composite high temperature wall body manufacturing method, comprising: coating the wall body with temperature selfadjusting phase transition mortar, coating heat preservation putty and then coating elastic putty, and finally coating heat insulating paint, where the said temperature selfadjusting phase transition mortar is composed in weight percent of: temperature selfadjusting phase transition material 10-40%, hollow fiber material 5-35%, dispersible glue powder 8-38%, cement 12-42%, and lightweight aggregate 35-65%. And the invention provides a temperature-selfadjusting phase transition composite heat preservation wall body manufacturing method and the product. And the product has features of better heat preservation effect, high antifire performance, low wall body foundation requirements, high fastness of heat preservation layer, good decorative effect, no pollution, long service life, able to make large-area spreading and application, etc.

Description

Manufacture method of a kind of self-temperature-regulating phase-change heat-insulation wall and products thereof

Affiliated technical field

The present invention relates to a kind of building field heat-preserving wall, is manufacture method of a kind of self-temperature-adjusting phase change heat-preserving wall and products thereof specifically.

Background technology

Want energy conservation, the temperature in will holding chamber, and the insulation of body of wall is extremely important for energy conservation, especially in the north.Present a kind of heat-preserving wall is to adopt bonding expanded polystyrene cystosepiment or high-density polystyrene extruded sheet outside body of wall, approaches outside it then and smears cotton mortar, adds the coating exterior wall coating material and realizes.The exterior wall of this structure, though have heat insulation effect preferably, but because the heat insulating material that uses mainly contains expanded polystyrene cystosepiment or high-density polystyrene extruded sheet, exist fireproof performance very poor, body of wall basis is required many defectives such as high, that the firm degree of insulation layer is low and the time limit in application life is short, on engineering is used, often occur being pasted not strongly solid, large tracts of land be full of cracks, hollowing often appear in plastering mortar, come off and/or phenomenon such as crack.After general 3 years, serious seepage problem will appear, cause within doors metope mouldy, become mildewed, and be difficult to deal with.

Another kind of heat-preserving wall is to apply polyphenyl particle heat-insulating mortar outside body of wall, and its coefficient of thermal conductivity of this polyphenyl particle heat-insulating mortar is higher, and is relatively poor for indoor heat insulation effect, and energy-conservation 65% requirement is not by far up to the mark.

The third heat-preserving wall is to cover polyurethane foam layer skin outside body of wall, the polyurethane foam layer has heat insulation effect preferably, firmness is also high, can solve top said two kinds of existing defectives of body of wall preferably, but, have the operating expenses costliness owing to the polyurethane foam layer is by two components and can produces together, the shortcoming of decorative effect difference, especially also there are shortcomings such as environment pollution is serious,, are difficult to and large tracts of land promote the use of in the current era that people's environmental consciousness strengthens day by day.

The present invention is exactly in order to solve many defectives that above-mentioned heat-preserving wall exists, and propose a kind of brand-new, the manufacture method of creative heat-preserving wall and the product of its production.

Summary of the invention

The object of the present invention is to provide manufacture method of a kind of self-temperature-regulating phase-change heat-insulation wall and products thereof, the product of producing with this manufacture method has heat insulation effect preferably, fireproof performance height,, insulation layer firm degree height less demanding to the body of wall basis, be full of cracks, hollowing do not appear, come off and/or crack etc., operating expenses cheap, good decorating effect, non-environmental-pollution is serious, long service life can large tracts of land be promoted the use of.

For achieving the above object, the present invention adopts following technical proposals:

A kind of manufacture method of self-temperature-regulating phase-change heat-insulation wall is scraped outside body of wall and is covered the self-temperature-adjusting phase change mortar, blade coating heat preservation putty outside said self-temperature-adjusting phase change mortar, outside it again the blade coating bouncing putty, the coating seal coat, apply adiabatic coating at last thereon,

Said self-temperature-adjusting phase change mortar is made up of according to percentage by weight following component:

Self-temperature-adjusting phase change material 10-40%;

Doughnut material 5-35%;

Can disperse rubber powder 8-38%;

Cement 12-42%;

Lightweight aggregate 35-65%;

Above-mentioned self-temperature-adjusting phase change material, doughnut material and lightweight aggregate are placed in first a mixing bowl after dispersed with stirring 20-30 minute as first component, can disperseing rubber powder and cement to be placed on to stir in second a mixing bowl after 35-50 minute, then second component is dropped into and directly add water when the first component dispersed with stirring was used in 15-20 minute and stir into paste and get final product as second component;

Said self-temperature-adjusting phase change material is made up of according to percentage by weight following component:

The cured 10-60% of phase transformation micro mist;

The microcapsules 40-90% that micro mist is cured;

Stearic microcapsules 0-50%;

The composite micro-capsule 0-50% that butyl stearate and micro mist are cured;

The microcapsules 0-50% of n-octadecane;

Said doughnut material is by following component, the mixture of forming according to percentage by weight:

Inorfil 0-100%;

Organic fiber 0-100%;

Said lightweight aggregate is by following component, the mixture of forming according to percentage by weight:

Kieselguhr 10-60%;

Float pearl 0-50%;

Haydite 0-50%;

Flyash 0-50%;

Expanded and vitrified small ball 20-70%;

Hollow glass spheres 10-60%;

Perlite 10-60%.

In technique scheme, said heat preservation putty is by following component, forms according to percentage by weight:

Rubber powder 15-55%;

Cement 10-50%;

Lightweight aggregate 20-60%;

Fiber 10-50%;

Expanded glass microballon 5-45%;

The mixture that said fiber is made up of inorfil and organic fiber;

Said lightweight aggregate mainly contains kieselguhr, floats pearl, one or more the mixture in the haydite, flyash, expanded and vitrified small ball, hollow glass spheres, perlite;

Said components put together fully stirred 30-45 minute, directly add water furnishing paste during use;

In technique scheme, said bouncing putty is by following component, forms according to percentage by weight:

Elastic emulsion 8-37%;

Synthetic glue powder 7-36%;

Quartz powder 20-49%;

Calcium carbonate 8-37%;

French chalk 10-39%;

Water 18-47%;

Above-mentioned synthetic glue powder, quartz powder, calcium carbonate, French chalk and water put together fully stirred 20-36 minute, evenly the back adds elastic emulsion and stirs into paste at a slow speed;

In technique scheme, said adiabatic coating is by following component, forms according to percentage by weight:

High resiliency organic silicon emulsion 20-48%;

Heat reflection cenosphere 12-40%;

Titanium dioxide 6-34%;

Hollow calcium carbonate 6-34%;

Shepardite 5-33%;

Pyrophillite 4-32%;

Expanded glass microballon 4-32%;

Water 10-43%:

Above-mentioned titanium dioxide, shepardite, hollow calcium carbonate, pyrophillite were added the water high-speed stirred after 25-30 minute, add organic silicon emulsion, middling speed stirred 20-36 minute, and adding cenosphere, expanded glass microballon stirred at a slow speed 30-45 minute;

Blade coating self-temperature-adjusting phase change mortar on good concrete of maintenance or brick metope, blade coating thickness is 1-1.5cm for the first time, after the drying, implement blade coating for the second time, the blade coating gross thickness is 2.5-3cm, treat that said self-temperature-adjusting phase change mortar parches after, the blade coating heat preservation putty, thickness is 1.5-2mm, treat its dry back blade coating bouncing putty, polish flat the spraying seal coat after the drying, after treating its drying, spray-on insulation, thickness is the 30-45 micron for the first time, at interval after 4-8 hour, spray for the second time, thickness also is the 30-45 micron.

The present invention has more following effects and good effect:

At first, blade coating self-temperature-adjusting phase change mortar has the function of accumulation of energy temperature adjustment on good concrete of maintenance or brick metope, when environment temperature raises, the phase change materials liquefy heat absorption, thereby make the matrix that is incubated tangible intensification can not occur because of the rising of environment temperature, when environment temperature reduces, the phase-change material curing exotherm, thereby make the matrix that is incubated tangible reduction can not occur because of the reduction of environment temperature, improved the ability of balance adjustment interior temperature greatly, after tested, 2cm is thick with this self-temperature-adjusting phase change mortar blade coating, just can reach the heat insulation effect of the polyphenyl plate of 4cm, said mortar is far longer than the adhesion of polyphenyl plate to body of wall to the adhesion of body of wall, fundamentally solve polyphenyl plate and occurred cracking easily, problems such as infiltration, simultaneously owing to used phase-change material, the heat preservation putty that uses when skin is because of containing the very low lightweight aggregate of the more coefficient of heat conduction, so played good insulation, effect of heat insulation, the outer used used expanded little bead of adiabatic coating, hollow glass microballon has high insulation effect.

The invention provides manufacture method of a kind of self-temperature-regulating phase-change heat-insulation wall and products thereof, the product of producing with this manufacture method has heat insulation effect preferably, fireproof performance height,, insulation layer firm degree height less demanding to the body of wall basis, be full of cracks, hollowing do not appear, come off and/or crack etc., operating expenses cheap, good decorating effect, non-environmental-pollution is serious, long service life can large tracts of land be promoted the use of.

Description of drawings

Below in conjunction with drawings and Examples the present invention is described in detail and illustrates:

Fig. 1 is the structural profile view that adopts the product that the manufacture method of self-temperature-regulating phase-change heat-insulation wall of the present invention produces.

In the drawings,

The 1st, body of wall, the 2nd, self-temperature-adjusting phase change mortar, the 3rd, heat preservation putty, the 4th, bouncing putty, the 5th, seal coat, the 6th, adiabatic coating.

The specific embodiment:

Embodiment 1:

A kind of manufacture method of self-temperature-regulating phase-change heat-insulation wall, outside body of wall, scrape and cover the self-temperature-adjusting phase change mortar, blade coating heat preservation putty outside said self-temperature-adjusting phase change mortar, outside it again the blade coating bouncing putty, the coating seal coat, apply adiabatic coating at last thereon.

Said self-temperature-adjusting phase change mortar is made up of according to percentage by weight following component:

Self-temperature-adjusting phase change material 10%;

Doughnut material 15%;

Can disperse rubber powder 18%;

Cement 22%;

Lightweight aggregate 35%.

Above-mentioned self-temperature-adjusting phase change material, doughnut material and lightweight aggregate are placed in first a mixing bowl after dispersed with stirring 20-30 minute as first component, can disperseing rubber powder and cement to be placed on to stir in second a mixing bowl after 35-50 minute, then second component is dropped into and directly add water when the first component dispersed with stirring was used in 15-20 minute and stir into paste and get final product as second component;

Said self-temperature-adjusting phase change material is made up of according to percentage by weight following component:

Phase transformation micro mist cured 20%;

The microcapsules 45% that micro mist is cured;

Stearic microcapsules 10%;

The composite micro-capsule 15% that butyl stearate and micro mist are cured;

The microcapsules 10% of n-octadecane;

Said doughnut material is by following component, the mixture of forming according to percentage by weight:

Inorfil 50%;

Organic fiber 50%;

Said lightweight aggregate is by following component, the mixture of forming according to percentage by weight:

Kieselguhr 25%;

Float pearl 10%;

Haydite 10%;

Flyash 10%;

Expanded and vitrified small ball 20%;

Hollow glass spheres 10%;

Perlite 15%.

Embodiment 2:

A kind of manufacture method of self-temperature-regulating phase-change heat-insulation wall, outside body of wall, scrape and cover the self-temperature-adjusting phase change mortar, blade coating heat preservation putty outside said self-temperature-adjusting phase change mortar, outside it again the blade coating bouncing putty, the coating seal coat, apply adiabatic coating at last thereon.

In technique scheme, said heat preservation putty is by following component, forms according to percentage by weight:

Rubber powder 18%;

Cement 16%;

Lightweight aggregate 35%;

Fiber 13%;

Expanded glass microballon 18%;

The mixture that said fiber is made up of inorfil and organic fiber;

Said lightweight aggregate mainly contains kieselguhr, floats pearl, one or more the mixture in the haydite, flyash, expanded and vitrified small ball, hollow glass spheres, perlite;

Said components put together fully stirred 30-45 minute, directly add water furnishing paste during use.

Embodiment 3:

A kind of manufacture method of self-temperature-regulating phase-change heat-insulation wall, outside body of wall, scrape and cover the self-temperature-adjusting phase change mortar, blade coating heat preservation putty outside said self-temperature-adjusting phase change mortar, outside it again the blade coating bouncing putty, the coating seal coat, apply adiabatic coating at last thereon.

In technique scheme, said bouncing putty is by following component, forms according to percentage by weight:

Elastic emulsion 12%;

Synthetic glue powder 12%;

Quartz powder 23%;

Calcium carbonate 13%;

French chalk 13%;

Water 27%.

Above-mentioned synthetic glue powder, quartz powder, calcium carbonate, French chalk and water put together fully stirred 20-36 minute, evenly the back adds elastic emulsion and stirs into paste at a slow speed.

Embodiment 4

A kind of manufacture method of self-temperature-regulating phase-change heat-insulation wall, outside body of wall, scrape and cover the self-temperature-adjusting phase change mortar, blade coating heat preservation putty outside said self-temperature-adjusting phase change mortar, outside it again the blade coating bouncing putty, the coating seal coat, apply adiabatic coating at last thereon.

In technique scheme, said adiabatic coating is by following component, forms according to percentage by weight:

High resiliency organic silicon emulsion 35%;

Heat reflection cenosphere 16%;

Titanium dioxide 10%;

Hollow calcium carbonate 7%;

Shepardite 6%;

Pyrophillite 5%;

Expanded glass microballon 4%;

Water 17%.

Above-mentioned titanium dioxide, shepardite, hollow calcium carbonate, pyrophillite were added the water high-speed stirred after 25-30 minute, add organic silicon emulsion, middling speed stirred 20-36 minute, and adding cenosphere, expanded glass microballon stirred at a slow speed 30-45 minute.

Claims (2)

1, a kind of manufacture method of self-temperature-regulating phase-change heat-insulation wall is characterized in that it makes according to following prescription and step:

Outside body of wall, scrape and cover the self-temperature-adjusting phase change mortar, blade coating heat preservation putty outside said self-temperature-adjusting phase change mortar, outside it again the blade coating bouncing putty, the coating seal coat, apply adiabatic coating at last thereon,

Said self-temperature-adjusting phase change mortar is made up of according to percentage by weight following component:

Self-temperature-adjusting phase change material 10-40%;

Doughnut material 5-35%;

Can disperse rubber powder 8-38%;

Cement 12-42%;

Lightweight aggregate 35-65%;

Above-mentioned self-temperature-adjusting phase change material, doughnut material and lightweight aggregate are placed in first a mixing bowl after dispersed with stirring 20-30 minute as first component, disperseing rubber powder and cement to be placed on to stir in second a mixing bowl after 35-50 minute as second component, then second component is dropped into and directly add water when first component dispersed with stirring 15-20 minute is used and stir into paste and get final product

Said self-temperature-adjusting phase change material is made up of according to percentage by weight following component:

The cured 10-60% of phase transformation micro mist;

The microcapsules 40-90% that micro mist is cured;

Stearic microcapsules 0-50%;

The composite micro-capsule 0-50% that butyl stearate and micro mist are cured;

The microcapsules 0-50% of n-octadecane;

Said doughnut material is by following component, the mixture of forming according to percentage by weight:

Inorfil 0-100%;

Organic fiber 0-100%;

Said lightweight aggregate is by following component, the mixture of forming according to percentage by weight:

Kieselguhr 10-60%;

Float pearl 0-50%;

Haydite 0-50%;

Flyash 0-50%;

Expanded and vitrified small ball 20-70%;

Hollow glass spheres 10-60%;

Perlite 10-60%;

Said heat preservation putty is by following component, forms and makes according to the following step according to percentage by weight:

Rubber powder 15-55%;

Cement 10-50%;

Lightweight aggregate 20-60%;

Fiber 10-50%;

Expanded glass microballon 5-45%;

The mixture that said fiber is made up of inorfil and organic fiber;

Said lightweight aggregate mainly contains kieselguhr, floats pearl, one or more the mixture in the haydite, flyash, expanded and vitrified small ball, hollow glass spheres, perlite;

Said components put together fully stirred 30-45 minute, directly add water furnishing paste during use;

Said bouncing putty is by following component, forms and makes according to the following step according to percentage by weight:

Elastic emulsion 8-37%;

Synthetic glue powder 7-36%;

Quartz powder 20-49%;

Calcium carbonate 8-37%;

French chalk 10-39%;

Water 18-47%;

Above-mentioned synthetic glue powder, quartz powder, calcium carbonate, French chalk and water put together fully stirred 20-36 minute, evenly the back adds elastic emulsion and stirs into paste at a slow speed;

Said adiabatic coating is by following component, forms and makes according to the following step according to percentage by weight:

High resiliency organic silicon emulsion 20-48%;

Heat reflection cenosphere 12-40%;

Titanium dioxide 6-34%;

Hollow calcium carbonate 6-34%;

Shepardite 5-33%;

Pyrophillite 4-32%;

Expanded glass microballon 4-32%;

Water 10-43%;

Above-mentioned titanium dioxide, shepardite, hollow calcium carbonate, pyrophillite were added the water high-speed stirred after 25-30 minute, add organic silicon emulsion, middling speed stirred 20-36 minute, and adding cenosphere, expanded glass microballon stirred at a slow speed 30-45 minute;

Blade coating self-temperature-adjusting phase change mortar on good concrete of maintenance or brick metope, blade coating thickness is 1-1.5cm for the first time, after the drying, implement blade coating for the second time, the blade coating gross thickness is 2.5-3cm, treat that said self-temperature-adjusting phase change mortar parches after, the blade coating heat preservation putty, thickness is 1.5-2mm, treat its dry back blade coating bouncing putty, polish flat the spraying seal coat after the drying, after treating its drying, spray-on insulation, thickness is the 30-45 micron for the first time, at interval after 4-8 hour, spray for the second time, thickness also is the 30-45 micron.

2, a kind of self-temperature-regulating phase-change heat-insulation wall product is characterized in that it is according to described prescription of claim 1 and step manufacturing.

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