CN101343429B - Intelligent temperature adjusting composite coating material and coating method thereof - Google Patents

Abstract

The invention discloses intelligent temperature regulating composite coating material and the coating method. The invention solves the problems that the intelligent temperature regulating coating is presently lacked, and the temperature of buildings can not be automatically regulated according to the change of the environment. The intelligent temperature regulating composite coating material and the coating method have the advantages that the cost is low, the manufacturing is convenient, and the intelligent temperature regulation can be achieved according to the change of the external environment. The intelligent temperature regulating composite coating material comprises intelligent temperature regulating masterbatch used as the first layer coating material; heat insulating putty used as the second layer coating material, and energy saving heat accumulating paint as the third coating material.

Description

Intelligent temperature adjusting composite coating material and coating method thereof

Technical field

The present invention relates to a kind of coating, relate in particular to a kind of intelligent temperature adjusting composite coating material and coating method thereof.

Background technology

Coating is a kind of buildings applicator commonly used in the building trade, and it effectively plays protective effect to external surface of buildings, and utilizing coating that the buildings temperature is regulated simultaneously also becomes a kind of new requirement.But used thermal control paint is not an intelligent thermoregulating at present, only is by self cutting off buildings and extraneous contacting directly, play certain insulation effect, can't realizing intelligent thermoregulating according to the variation of outside atmosphere.Traditional lagging material can only play certain shielding insulation effect, and easy firing, has disaster hidden-trouble and long construction period, and labour intensity is big, easily comes off, not easy-maintaining and do not reach shortcomings such as environmental requirement.

Summary of the invention

Purpose of the present invention lacks intelligent thermoregulating coating at present in order to solve exactly, the problem that can not automatically adjust to the buildings temperature according to the variation realization of environment, provide that a kind of to have a cost low, easy to make, can change the intelligent temperature adjusting composite coating material and the coating method thereof of advantages such as realization intelligent thermoregulating according to outside atmosphere.

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

A kind of intelligent temperature adjusting composite coating material, it comprises the intelligent thermoregulating masterbatch as the first layer coating material; The heat preservation putty of second layer coating material; And the energy-conservation heat accumulation coating of the 3rd layer of coating material.

Described intelligent thermoregulating masterbatch moiety is by weight:

1-10 parts of phase-change microcapsules

10-30 parts of silicate cements

5-10 parts of sand-cement slurry binding agents

10-20 parts of fly ash floats

5-10 parts of pearlstones

Closed perlite 5---30 part

5-25 parts of brucite fibers

Hydrophober 0--2 part

Water reducer 0--2 part

Water-holding agent 0--2 part

Whipping agent 0--2 part

Nano silicon 5--20 part

Anti-fissuring agent 0--2 part

Above-mentioned materials added in the mixing machine successively mix, add clear water during use and mix well.

Described heat preservation putty moiety is by weight:

10-50 parts of cement

2-10 parts of silica powders

30-50 parts of ceramic vacuum microballons

10-15 parts of brucite powders

5-15 parts of 5044N rubber powders

Hydrophober 0--2 part

Water reducer 0--2 part

Water-holding agent 0--2 part

Anti-fissuring agent 1--4 part

With above-mentioned materials add mix in the mixing machine after, add proper amount of clear water during use and mix well into paste and get final product.

Described energy-conservation heat accumulation coating moiety is by weight:

8-15 parts in water

1-7 parts of mica powders

1-10 parts of calcite in powder

10-25 parts in rutile titanium white powder

10-50 parts of water-based fluorocarbon resins

5-25 parts of TB110 elastic emulsions

0-5 parts of mould inhibitors

0-5 parts of defoamers

0-10 parts of wetting dispersing agents

5-15 parts of ceramic vacuum microballons

5-20 parts of phase-change microcapsules

Water, mica powder, calcite in powder, the rutile titanium white powder of above-mentioned materials be sequentially added into grind after stirring in the dispersion tank, be ground to and add water-based fluorocarbon resin, TB110 elastic emulsion, mould inhibitor, defoamer, wetting dispersing agent behind fineness≤80 μ m, add again and get final product after ceramic vacuum microballon, phase-change microcapsule are stirred to evenly at a slow speed until stirring.

Described ceramic vacuum microballon is the closed pore hollow material of granularity less than 55 μ m.

A kind of coating method of intelligent temperature adjusting composite coating material, its step is

1) will realize smearing the intelligent thermoregulating masterbatch on the metope that is incubated earlier, smearing thickness is 20-50mm;

2) blade coating heat preservation putty again on the basis of intelligent thermoregulating masterbatch then, blade coating thickness is 2-10mm;

3) the energy-conservation heat accumulation coating of last brushing on the basis of heat preservation putty.

A kind of intelligent thermoregulating coated-body based material that the present invention forms by intelligent thermoregulating masterbatch, heat preservation putty, energy-conservation heat accumulation coating, this intelligent thermoregulating coated-body based material can be heat insulation by external reflection, the thermal power transfer of inner accumulation of energy medium changes, and absorbs or discharges heat energy and reach the purpose that regulates the room temperature.

Intelligent thermoregulating mechanism of the present invention is: utilized the thermal control material with phase-state change---phase-change microcapsule (the upright new day Huaneng Group source material scientific and technological development company limited in Beijing produces), it is the microcapsule that contain materials such as synthetic paraffin, native paraffin, n-hexadecane, butyl stearate, and this material has thermally melting and thermal resistance two big characteristics.When envrionment temperature was lower than certain value, phase change material was condensed into solid-state by liquid state, and release of heat promotes room temperature simultaneously; When envrionment temperature was higher than certain value, phase change material was liquid by solid-state thawing, absorbs store heat, and room temperature is descended.Heighten owing to the phase-changing and temperature-regulating material that occurs in recent years only has---turn down the secondary thermoregulation effect, and only be confined on the axis of a transformation temperature, thereby thermoregulation effect is very limited, more can not constantly adjust room temperature according to the variation of envrionment temperature.Outstanding feature of the present invention is that the phase-changing and temperature-regulating material of a plurality of specification transformation temperatures is organically combined into an intelligent thermoregulating system, such as 0,10,15,20,26 ℃ of this some temperature spot.This intelligent thermoregulating system can be according to the variation of envrionment temperature, and the phase change material that starts respective phase change point is at any time regulated room temperature, makes it to reach the temperature that needs.Characteristics of the present invention also are, can require design according to the difference of different areas to temperature, and total temperature adjustment scheme is the highlyest to be no more than 26 ℃, minimumly are not less than 18 ℃, make room temperature keep constant relatively.

The invention has the beneficial effects as follows:

1. the present invention not only has the shielding insulation effect, can also realize the intelligence effect of regulating the room temperature according to the variation of ambient temperature.

2. the present invention has all adopted inorganic materials, does not only burn but also has the advantage of fire protection flame retarding.

3. owing to all adopted the inorganic environment-friendly material, thereby meet the non-harmful requirement of environmental protection and energy saving.

4. owing to adopted light material, greatly reduce the deadweight of buildings, also alleviated working strength of workers.

5. because this material can be constructed after buildings finishes building brick, do not need wall plastering, thereby shortened construction period.

6. this material directly spreads upon on the metope, organically combines with buildings, hollowing, obscission can not occur, can with the same life-span of buildings.

7. construction easily, maintenance easily.In case, promptly mend flat getting final product with this applying material if mechanical injuries need repairing.

Embodiment

The present invention will be further described below in conjunction with embodiment.

Embodiment 1:

Intelligent temperature adjusting composite coating material of the present invention consists of: the intelligent thermoregulating masterbatch of the first layer coating material; The heat preservation putty of second layer coating material; And the energy-conservation heat accumulation coating of the 3rd layer of coating material.

Described intelligent thermoregulating masterbatch moiety is by weight:

1 part of phase-change microcapsule

10 parts of silicate cements

5 parts of sand-cement slurry binding agents

10 parts of fly ash floats

5 parts of pearlstones

5 parts of closed perlite

5 parts of brucite fibers

5 parts of nano silicons

Above-mentioned materials added in the mixing machine successively mix, add clear water during use and mix well.

Described heat preservation putty moiety is by weight:

10 parts of cement

2 parts of silica powders

30 parts of ceramic vacuum microballons

10 parts of brucite powders

5 parts of 5044N rubber powders

1 part of anti-fissuring agent

With above-mentioned materials add mix in the mixing machine after, add proper amount of clear water during use and mix well into paste and get final product.

Described energy-conservation heat accumulation coating moiety is by weight:

8 parts in water

1 part of mica powder

1 part of calcite in powder

10 parts in rutile titanium white powder

10 parts of water-based fluorocarbon resins

5 parts of TB110 elastic emulsions

5 parts of ceramic vacuum microballons

5 parts of phase-change microcapsules

Water, mica powder, calcite in powder, the rutile titanium white powder of above-mentioned materials be sequentially added into grind after stirring in the dispersion tank, be ground to and add water-based fluorocarbon resin, TB110 elastic emulsion behind fineness≤80 μ m, add again and get final product after ceramic vacuum microballon, phase-change microcapsule are stirred to evenly at a slow speed until stirring.

Described ceramic vacuum microballon is the closed pore hollow material of granularity less than 55 μ m.

A kind of coating method of intelligent temperature adjusting composite coating material, its step is

1) will realize smearing the intelligent thermoregulating masterbatch on the metope that is incubated earlier, smearing thickness is 20mm;

2) blade coating heat preservation putty again on the basis of intelligent thermoregulating masterbatch then, blade coating thickness is 2mm;

3) the energy-conservation heat accumulation coating of last brushing on the basis of heat preservation putty.

Embodiment 2:

A kind of intelligent temperature adjusting composite coating material, it comprises the intelligent thermoregulating masterbatch as the first layer coating material; The heat preservation putty of second layer coating material; And the energy-conservation heat accumulation coating of the 3rd layer of coating material.

Described intelligent thermoregulating masterbatch moiety is by weight:

10 parts of phase-change microcapsules

30 parts of silicate cements

10 parts of sand-cement slurry binding agents

20 parts of fly ash floats

10 parts of pearlstones

30 parts of closed perlite

25 parts of brucite fibers

2 parts of hydrophober

2 parts of water reducers

2 parts of water-holding agents

2 parts of whipping agents

20 parts of nano silicons

2 parts of anti-fissuring agents

Above-mentioned materials added in the mixing machine successively mix, add clear water during use and mix well.

Described heat preservation putty moiety is by weight:

50 parts of cement

10 parts of silica powders

50 parts of ceramic vacuum microballons

15 parts of brucite powders

15 parts of 5044N rubber powders

2 parts of hydrophober

2 parts of water reducers

2 parts of water-holding agents

4 parts of anti-fissuring agents

With above-mentioned materials add mix in the mixing machine after, add proper amount of clear water during use and mix well into paste and get final product.

Described energy-conservation heat accumulation coating moiety is by weight:

15 parts in water

7 parts of mica powders

10 parts of calcite in powder

25 parts in rutile titanium white powder

50 parts of water-based fluorocarbon resins

25 parts of TB110 elastic emulsions

5 parts of mould inhibitors

5 parts of defoamers

10 parts of wetting dispersing agents

15 parts of ceramic vacuum microballons

20 parts of phase-change microcapsules

Water, mica powder, calcite in powder, the rutile titanium white powder of above-mentioned materials be sequentially added into grind after stirring in the dispersion tank, be ground to and add water-based fluorocarbon resin, TB110 elastic emulsion, mould inhibitor, defoamer, wetting dispersing agent behind fineness≤80 μ m, add again and get final product after ceramic vacuum microballon, phase-change microcapsule are stirred to evenly at a slow speed until stirring.

Described ceramic vacuum microballon is the closed pore hollow material of granularity less than 55 μ m.

A kind of coating method of intelligent temperature adjusting composite coating material, its step is

1) will realize smearing the intelligent thermoregulating masterbatch on the metope that is incubated earlier, smearing thickness is 50mm;

2) blade coating heat preservation putty again on the basis of intelligent thermoregulating masterbatch then, blade coating thickness is 10mm;

3) the energy-conservation heat accumulation coating of last brushing on the basis of heat preservation putty.

Embodiment 3:

A kind of intelligent temperature adjusting composite coating material, it comprises the intelligent thermoregulating masterbatch as the first layer coating material; The heat preservation putty of second layer coating material; And the energy-conservation heat accumulation coating of the 3rd layer of coating material.

Described intelligent thermoregulating masterbatch moiety is by weight:

2 parts of phase-change microcapsules

12 parts of silicate cements

6 parts of sand-cement slurry binding agents

11 parts of fly ash floats

6 parts of pearlstones

8 parts of closed perlite

7 parts of brucite fibers

0.3 part of hydrophober

0.2 part of water reducer

0.3 part of water-holding agent

0.2 part of whipping agent

6 parts of nano silicons

0.2 part of anti-fissuring agent

Above-mentioned materials added in the mixing machine successively mix, add clear water during use and mix well.

Described heat preservation putty moiety is by weight:

15 parts of cement

3 parts of silica powders

32 parts of ceramic vacuum microballons

11 parts of brucite powders

6 parts of 5044N rubber powders

0.3 part of hydrophober

0.2 part of water reducer

0.3 part of water-holding agent

0.2 part of anti-fissuring agent

With above-mentioned materials add mix in the mixing machine after, add proper amount of clear water during use and mix well into paste and get final product.

Described energy-conservation heat accumulation coating moiety is by weight:

9 parts in water

2 parts of mica powders

2 parts of calcite in powder

11 parts in rutile titanium white powder

12 parts of water-based fluorocarbon resins

6 parts of TB110 elastic emulsions

1 part of mould inhibitor

1 part of defoamer

1 part of wetting dispersing agent

6 parts of ceramic vacuum microballons

6 parts of phase-change microcapsules

Water, mica powder, calcite in powder, the rutile titanium white powder of above-mentioned materials be sequentially added into grind after stirring in the dispersion tank, be ground to and add water-based fluorocarbon resin, TB110 elastic emulsion, mould inhibitor, defoamer, wetting dispersing agent behind fineness≤80 μ m, add again and get final product after ceramic vacuum microballon, phase-change microcapsule are stirred to evenly at a slow speed until stirring.

Described ceramic vacuum microballon is the closed pore hollow material of granularity less than 55 μ m.

A kind of coating method of intelligent temperature adjusting composite coating material, its step is

1) will realize smearing the intelligent thermoregulating masterbatch on the metope that is incubated earlier, smearing thickness is 24mm;

2) blade coating heat preservation putty again on the basis of intelligent thermoregulating masterbatch then, blade coating thickness is 3mm;

3) the energy-conservation heat accumulation coating of last brushing on the basis of heat preservation putty.

Embodiment 4:

A kind of intelligent temperature adjusting composite coating material, it comprises the intelligent thermoregulating masterbatch as the first layer coating material; The heat preservation putty of second layer coating material; And the energy-conservation heat accumulation coating of the 3rd layer of coating material.

Described intelligent thermoregulating masterbatch moiety is by weight:

3 parts of phase-change microcapsules

14 parts of silicate cements

7 parts of sand-cement slurry binding agents

12 parts of fly ash floats

7 parts of pearlstones

10 parts of closed perlite

9 parts of brucite fibers

0.5 part of hydrophober

0.4 part of water reducer

0.5 part of water-holding agent

0.4 part of whipping agent

8 parts of nano silicons

0.4 part of anti-fissuring agent

Above-mentioned materials added in the mixing machine successively mix, add clear water during use and mix well.

Described heat preservation putty moiety is by weight:

20 parts of cement

4 parts of silica powders

34 parts of ceramic vacuum microballons

12 parts of brucite powders

7 parts of 5044N rubber powders

0.5 part of hydrophober

0.4 part of water reducer

0.5 part of water-holding agent

0.4 part of anti-fissuring agent

With above-mentioned materials add mix in the mixing machine after, add proper amount of clear water during use and mix well into paste and get final product.

Described energy-conservation heat accumulation coating moiety is by weight:

10 parts in water

3 parts of mica powders

3 parts of calcite in powder

12 parts in rutile titanium white powder

14 parts of water-based fluorocarbon resins

8 parts of TB110 elastic emulsions

2 parts of mould inhibitors

2 parts of defoamers

2 parts of wetting dispersing agents

8 parts of ceramic vacuum microballons

8 parts of phase-change microcapsules

Water, mica powder, calcite in powder, the rutile titanium white powder of above-mentioned materials be sequentially added into grind after stirring in the dispersion tank, be ground to and add water-based fluorocarbon resin, TB110 elastic emulsion, mould inhibitor, defoamer, wetting dispersing agent behind fineness≤80 μ m, add again and get final product after ceramic vacuum microballon, phase-change microcapsule are stirred to evenly at a slow speed until stirring.

Described ceramic vacuum microballon is the closed pore hollow material of granularity less than 55 μ m.

A kind of coating method of intelligent temperature adjusting composite coating material, its step is

1) will realize smearing the intelligent thermoregulating masterbatch on the metope that is incubated earlier, smearing thickness is 26mm;

2) blade coating heat preservation putty again on the basis of intelligent thermoregulating masterbatch then, blade coating thickness is 4mm;

3) the energy-conservation heat accumulation coating of last brushing on the basis of heat preservation putty.

Embodiment 5:

A kind of intelligent temperature adjusting composite coating material, it comprises the intelligent thermoregulating masterbatch as the first layer coating material; The heat preservation putty of second layer coating material; And the energy-conservation heat accumulation coating of the 3rd layer of coating material.

Described intelligent thermoregulating masterbatch moiety is by weight:

4 parts of phase-change microcapsules

16 parts of silicate cements

8 parts of sand-cement slurry binding agents

14 parts of fly ash floats

8 parts of pearlstones

12 parts of closed perlite

11 parts of brucite fibers

0.7 part of hydrophober

0.6 part of water reducer

0.7 part of water-holding agent

0.6 part of whipping agent

10 parts of nano silicons

0.6 part of anti-fissuring agent

Above-mentioned materials added in the mixing machine successively mix, add clear water during use and mix well.

Described heat preservation putty moiety is by weight:

25 parts of cement

5 parts of silica powders

36 parts of ceramic vacuum microballons

13 parts of brucite powders

8 parts of 5044N rubber powders

0.7 part of hydrophober

0.6 part of water reducer

0.7 part of water-holding agent

0.6 part of anti-fissuring agent

With above-mentioned materials add mix in the mixing machine after, add proper amount of clear water during use and mix well into paste and get final product.

Described energy-conservation heat accumulation coating moiety is by weight:

11 parts in water

4 parts of mica powders

4 parts of calcite in powder

14 parts in rutile titanium white powder

16 parts of water-based fluorocarbon resins

10 parts of TB110 elastic emulsions

3 parts of mould inhibitors

3 parts of defoamers

3 parts of wetting dispersing agents

9 parts of ceramic vacuum microballons

10 parts of phase-change microcapsules

Water, mica powder, calcite in powder, the rutile titanium white powder of above-mentioned materials be sequentially added into grind after stirring in the dispersion tank, be ground to and add water-based fluorocarbon resin, TB110 elastic emulsion, mould inhibitor, defoamer, wetting dispersing agent behind fineness≤80 μ m, add again and get final product after ceramic vacuum microballon, phase-change microcapsule are stirred to evenly at a slow speed until stirring.

Described ceramic vacuum microballon is the closed pore hollow material of granularity less than 55 μ m.

A kind of coating method of intelligent temperature adjusting composite coating material, its step is

1) will realize smearing the intelligent thermoregulating masterbatch on the metope that is incubated earlier, smearing thickness is 30mm;

2) blade coating heat preservation putty again on the basis of intelligent thermoregulating masterbatch then, blade coating thickness is 5mm;

3) the energy-conservation heat accumulation coating of last brushing on the basis of heat preservation putty.

Embodiment 6:

A kind of intelligent temperature adjusting composite coating material, it comprises the intelligent thermoregulating masterbatch as the first layer coating material; The heat preservation putty of second layer coating material; And the energy-conservation heat accumulation coating of the 3rd layer of coating material.

Described intelligent thermoregulating masterbatch moiety is by weight:

5 parts of phase-change microcapsules

20 parts of silicate cements

9 parts of sand-cement slurry binding agents

16 parts of fly ash floats

9 parts of pearlstones

16 parts of closed perlite

15 parts of brucite fibers

0.9 part of hydrophober

0.8 part of water reducer

0.9 part of water-holding agent

0.8 part of whipping agent

12 parts of nano silicons

0.8 part of anti-fissuring agent

Above-mentioned materials added in the mixing machine successively mix, add clear water during use and mix well.

Described heat preservation putty moiety is by weight:

30 parts of cement

6 parts of silica powders

38 parts of ceramic vacuum microballons

14 parts of brucite powders

9 parts of 5044N rubber powders

0.9 part of hydrophober

0.8 part of water reducer

0.9 part of water-holding agent

0.8 part of anti-fissuring agent

With above-mentioned materials add mix in the mixing machine after, add proper amount of clear water during use and mix well into paste and get final product.

Described energy-conservation heat accumulation coating moiety is by weight:

12 parts in water

5 parts of mica powders

6 parts of calcite in powder

16 parts in rutile titanium white powder

20 parts of water-based fluorocarbon resins

15 parts of TB110 elastic emulsions

4 parts of mould inhibitors

4 parts of defoamers

4 parts of wetting dispersing agents

10 parts of ceramic vacuum microballons

14 parts of phase-change microcapsules

Water, mica powder, calcite in powder, the rutile titanium white powder of above-mentioned materials be sequentially added into grind after stirring in the dispersion tank, be ground to and add water-based fluorocarbon resin, TB110 elastic emulsion, mould inhibitor, defoamer, wetting dispersing agent behind fineness≤80 μ m, add again and get final product after ceramic vacuum microballon, phase-change microcapsule are stirred to evenly at a slow speed until stirring.

Described ceramic vacuum microballon is the closed pore hollow material of granularity less than 55 μ m.

A kind of coating method of intelligent temperature adjusting composite coating material, its step is

1) will realize smearing the intelligent thermoregulating masterbatch on the metope that is incubated earlier, smearing thickness is 35mm;

2) blade coating heat preservation putty again on the basis of intelligent thermoregulating masterbatch then, blade coating thickness is 6mm;

3) the energy-conservation heat accumulation coating of last brushing on the basis of heat preservation putty.

Embodiment 7:

A kind of intelligent temperature adjusting composite coating material, it comprises the intelligent thermoregulating masterbatch as the first layer coating material; The heat preservation putty of second layer coating material; And the energy-conservation heat accumulation coating of the 3rd layer of coating material.

Described intelligent thermoregulating masterbatch moiety is by weight:

6 parts of phase-change microcapsules

24 parts of silicate cements

10 parts of sand-cement slurry binding agents

17 parts of fly ash floats

10 parts of pearlstones

20 parts of closed perlite

18 parts of brucite fibers

1.1 parts of hydrophober

1 part of water reducer

1.1 parts of water-holding agents

1 part of whipping agent

14 parts of nano silicons

1 part of anti-fissuring agent

Above-mentioned materials added in the mixing machine successively mix, add clear water during use and mix well.

Described heat preservation putty moiety is by weight:

35 parts of cement

7 parts of silica powders

40 parts of ceramic vacuum microballons

15 parts of brucite powders

10 parts of 5044N rubber powders

1.1 parts of hydrophober

1 part of water reducer

1.1 parts of water-holding agents

1 part of anti-fissuring agent

With above-mentioned materials add mix in the mixing machine after, add proper amount of clear water during use and mix well into paste and get final product.

Described energy-conservation heat accumulation coating moiety is by weight:

13 parts in water

6 parts of mica powders

7 parts of calcite in powder

18 parts in rutile titanium white powder

25 parts of water-based fluorocarbon resins

18 parts of TB110 elastic emulsions

5 parts of mould inhibitors

5 parts of defoamers

5 parts of wetting dispersing agents

11 parts of ceramic vacuum microballons

16 parts of phase-change microcapsules

Water, mica powder, calcite in powder, the rutile titanium white powder of above-mentioned materials be sequentially added into grind after stirring in the dispersion tank, be ground to and add water-based fluorocarbon resin, TB110 elastic emulsion, mould inhibitor, defoamer, wetting dispersing agent behind fineness≤80 μ m, add again and get final product after ceramic vacuum microballon, phase-change microcapsule are stirred to evenly at a slow speed until stirring.

Described ceramic vacuum microballon is the closed pore hollow material of granularity less than 55 μ m.

A kind of coating method of intelligent temperature adjusting composite coating material, its step is

1) will realize smearing the intelligent thermoregulating masterbatch on the metope that is incubated earlier, smearing thickness is 40mm;

2) blade coating heat preservation putty again on the basis of intelligent thermoregulating masterbatch then, blade coating thickness is 7mm;

3) the energy-conservation heat accumulation coating of last brushing on the basis of heat preservation putty.

Embodiment 8:

A kind of intelligent temperature adjusting composite coating material, it comprises the intelligent thermoregulating masterbatch as the first layer coating material; The heat preservation putty of second layer coating material; And the energy-conservation heat accumulation coating of the 3rd layer of coating material.

Described intelligent thermoregulating masterbatch moiety is by weight:

7 parts of phase-change microcapsules

26 parts of silicate cements

10 parts of sand-cement slurry binding agents

18 parts of fly ash floats

10 parts of pearlstones

22 parts of closed perlite

20 parts of brucite fibers

1.3 parts of hydrophober

1.2 parts of water reducers

1.3 parts of water-holding agents

1.2 parts of whipping agents

16 parts of nano silicons

1.2 parts of anti-fissuring agents

Above-mentioned materials added in the mixing machine successively mix, add clear water during use and mix well.

Described heat preservation putty moiety is by weight:

40 parts of cement

8 parts of silica powders

42 parts of ceramic vacuum microballons

15 parts of brucite powders

12 parts of 5044N rubber powders

1.3 parts of hydrophober

1.2 parts of water reducers

1.3 parts of water-holding agents

1.2 parts of anti-fissuring agents

With above-mentioned materials add mix in the mixing machine after, add proper amount of clear water during use and mix well into paste and get final product.

Described energy-conservation heat accumulation coating moiety is by weight:

14 parts in water

7 parts of mica powders

8 parts of calcite in powder

20 parts in rutile titanium white powder

30 parts of water-based fluorocarbon resins

20 parts of TB110 elastic emulsions

5 parts of mould inhibitors

5 parts of defoamers

5 parts of wetting dispersing agents

12 parts of ceramic vacuum microballons

18 parts of phase-change microcapsules

Water, mica powder, calcite in powder, the rutile titanium white powder of above-mentioned materials be sequentially added into grind after stirring in the dispersion tank, be ground to and add water-based fluorocarbon resin, TB110 elastic emulsion, mould inhibitor, defoamer, wetting dispersing agent behind fineness≤80 μ m, add again and get final product after ceramic vacuum microballon, phase-change microcapsule are stirred to evenly at a slow speed until stirring.

Described ceramic vacuum microballon is the closed pore hollow material of granularity less than 55 μ m.

A kind of coating method of intelligent temperature adjusting composite coating material, its step is

1) will realize smearing the intelligent thermoregulating masterbatch on the metope that is incubated earlier, smearing thickness is 42mm;

2) blade coating heat preservation putty again on the basis of intelligent thermoregulating masterbatch then, blade coating thickness is 8mm;

3) the energy-conservation heat accumulation coating of last brushing on the basis of heat preservation putty.

Embodiment 9:

A kind of intelligent temperature adjusting composite coating material, it comprises the intelligent thermoregulating masterbatch as the first layer coating material; The heat preservation putty of second layer coating material; And the energy-conservation heat accumulation coating of the 3rd layer of coating material.

Described intelligent thermoregulating masterbatch moiety is by weight:

8 parts of phase-change microcapsules

28 parts of silicate cements

10 parts of sand-cement slurry binding agents

19 parts of fly ash floats

10 parts of pearlstones

26 parts of closed perlite

22 parts of brucite fibers

1.5 parts of hydrophober

1.4 parts of water reducers

1.5 parts of water-holding agents

1.4 parts of whipping agents

18 parts of nano silicons

1.4 parts of anti-fissuring agents

Above-mentioned materials added in the mixing machine successively mix, add clear water during use and mix well.

Described heat preservation putty moiety is by weight:

45 parts of cement

9 parts of silica powders

46 parts of ceramic vacuum microballons

15 parts of brucite powders

13 parts of 5044N rubber powders

1.5 parts of hydrophober

1.4 parts of water reducers

1.5 parts of water-holding agents

1.4 parts of anti-fissuring agents

With above-mentioned materials add mix in the mixing machine after, add proper amount of clear water during use and mix well into paste and get final product.

Described energy-conservation heat accumulation coating moiety is by weight:

15 parts in water

7 parts of mica powders

9 parts of calcite in powder

22 parts in rutile titanium white powder

40 parts of water-based fluorocarbon resins

22 parts of TB110 elastic emulsions

5 parts of mould inhibitors

5 parts of defoamers

5 parts of wetting dispersing agents

13 parts of ceramic vacuum microballons

19 parts of phase-change microcapsules

Water, mica powder, calcite in powder, the rutile titanium white powder of above-mentioned materials be sequentially added into grind after stirring in the dispersion tank, be ground to and add water-based fluorocarbon resin, TB110 elastic emulsion, mould inhibitor, defoamer, wetting dispersing agent behind fineness≤80 μ m, add again and get final product after ceramic vacuum microballon, phase-change microcapsule are stirred to evenly at a slow speed until stirring.

Described ceramic vacuum microballon is the closed pore hollow material of granularity less than 55 μ m.

A kind of coating method of intelligent temperature adjusting composite coating material, its step is

1) will realize smearing the intelligent thermoregulating masterbatch on the metope that is incubated earlier, smearing thickness is 45mm;

2) blade coating heat preservation putty again on the basis of intelligent thermoregulating masterbatch then, blade coating thickness is 9mm;

3) the energy-conservation heat accumulation coating of last brushing on the basis of heat preservation putty.

Embodiment 10:

A kind of intelligent temperature adjusting composite coating material, it comprises the intelligent thermoregulating masterbatch as the first layer coating material; The heat preservation putty of second layer coating material; And the energy-conservation heat accumulation coating of the 3rd layer of coating material.

Described intelligent thermoregulating masterbatch moiety is by weight:

9 parts of phase-change microcapsules

29 parts of silicate cements

10 parts of sand-cement slurry binding agents

19 parts of fly ash floats

10 parts of pearlstones

28 parts of closed perlite

24 parts of brucite fibers

1.9 parts of hydrophober

1.9 parts of water reducers

1.9 parts of water-holding agents

1.9 parts of whipping agents

19 parts of nano silicons

1.9 parts of anti-fissuring agents

Above-mentioned materials added in the mixing machine successively mix, add clear water during use and mix well.

Described heat preservation putty moiety is by weight:

49 parts of cement

9 parts of silica powders

49 parts of ceramic vacuum microballons

15 parts of brucite powders

14 parts of 5044N rubber powders

1.9 parts of hydrophober

1.9 parts of water reducers

1.9 parts of water-holding agents

1.9 parts of anti-fissuring agents

With above-mentioned materials add mix in the mixing machine after, add proper amount of clear water during use and mix well into paste and get final product.

Described energy-conservation heat accumulation coating moiety is by weight:

15 parts in water

7 parts of mica powders

9 parts of calcite in powder

24 parts in rutile titanium white powder

48 parts of water-based fluorocarbon resins

24 parts of TB110 elastic emulsions

5 parts of mould inhibitors

5 parts of defoamers

5 parts of wetting dispersing agents

14 parts of ceramic vacuum microballons

19 parts of phase-change microcapsules

Water, mica powder, calcite in powder, the rutile titanium white powder of above-mentioned materials be sequentially added into grind after stirring in the dispersion tank, be ground to and add water-based fluorocarbon resin, TB110 elastic emulsion, mould inhibitor, defoamer, wetting dispersing agent behind fineness≤80 μ m, add again and get final product after ceramic vacuum microballon, phase-change microcapsule are stirred to evenly at a slow speed until stirring.

Described ceramic vacuum microballon is the closed pore hollow material of granularity less than 55 μ m.

A kind of coating method of intelligent temperature adjusting composite coating material, its step is

1) will realize smearing the intelligent thermoregulating masterbatch on the metope that is incubated earlier, smearing thickness is 48mm;

2) blade coating heat preservation putty again on the basis of intelligent thermoregulating masterbatch then, blade coating thickness is 9mm;

3) the energy-conservation heat accumulation coating of last brushing on the basis of heat preservation putty.

Claims (3)

1. intelligent temperature adjusting composite coating material, it is characterized in that: it comprises the intelligent thermoregulating masterbatch as the first layer coating material; The heat preservation putty of second layer coating material; And the energy-conservation heat accumulation coating of the 3rd layer of coating material;

Described intelligent thermoregulating masterbatch moiety is by weight:

Phase-change microcapsule 1-10 part

Silicate cement 10-30 part

Sand-cement slurry binding agent 5-10 part

Fly ash float 10-20 part

Pearlstone 5-10 part

Closed perlite 5---30 part

Brucite fiber 5-25 part

Hydrophober 0--2 part

Water reducer 0--2 part

Water-holding agent 0--2 part

Whipping agent 0--2 part

Nanometer titanium dioxide 5--20 part

Anti-fissuring agent 0--2 part

Above-mentioned materials added in the mixing machine successively mix, add clear water during use and mix well; Wherein phase-change microcapsule is that the phase-change microcapsule of a plurality of specifications of 0 ℃, 10 ℃, 15 ℃, 20 ℃ and 26 ℃ mixes by phase point temperature;

Described heat preservation putty moiety is by weight:

Cement 10-50 part

Silica powder 2-10 part

Ceramic vacuum microballon 30-50 part

Brucite powder 10-15 part

5044N rubber powder 5-15 part

Hydrophober 0--2 part

Water reducer 0--2 part

Water-holding agent 0--2 part

Anti-fissuring agent 1--4 part

With above-mentioned materials add mix in the mixing machine after, add proper amount of clear water during use and mix well into paste and get final product;

Described energy-conservation heat accumulation coating moiety is by weight:

Water 8-15 part

Mica powder 1-7 part

Calcite in powder 1-10 part

Rutile titanium white powder 10-25 part

Water-based fluorocarbon resin 10-50 part

TB110 elastic emulsion 5-25 part

Mould inhibitor 0-5 part

Defoamer 0-5 part

Wetting dispersing agent 0-10 part

Ceramic vacuum microballon 5-15 part

Phase-change microcapsule 5-20 part

Water, mica powder, calcite in powder, the rutile titanium white powder of above-mentioned materials be sequentially added into grind after stirring in the dispersion tank, be ground to and add water-based fluorocarbon resin, TB110 elastic emulsion, mould inhibitor, defoamer, wetting dispersing agent behind fineness≤80 μ m, add again and get final product after ceramic vacuum microballon, phase-change microcapsule are stirred to evenly at a slow speed until stirring.

2. intelligent temperature adjusting composite coating material as claimed in claim 1 is characterized in that, described ceramic vacuum microballon is the closed pore hollow material of granularity less than 55 μ m.

3. the coating method of the described intelligent temperature adjusting composite coating material of claim 1 is characterized in that, its step is

1) will realize smearing the intelligent thermoregulating masterbatch on the metope that is incubated earlier, smearing thickness is 20-50mm;

2) blade coating heat preservation putty again on the basis of intelligent thermoregulating masterbatch then, blade coating thickness is 2-10mm;

3) the energy-conservation heat accumulation coating of last brushing on the basis of heat preservation putty.