CN105860721A - Building heat-insulation and heat-preservation coating - Google Patents

Abstract

The invention discloses a building heat-insulation and heat-preservation coating prepared by the steps: putting a polyacrylate emulsion into a lifting dispersion stirrer, stirring, adding a perlite powder, white carbon black, aluminum oxide, a ceramic powder, glass micro-beads, titanium dioxide, kaolin, butyl acetate, ethylene glycol, sodium hexametaphosphate and hydroxyethyl cellulose in the stirring process, then supplementing with an appropriate amount of pure water, stirring for 30-60 minutes into a paste, and thus obtaining the heat-preservation coating. The high-performance building heat-insulation and heat-preservation coating has the advantages of good heat-insulation and heat-preservation effects, convenient construction, and long service life period, enables the building self bearing load to be reduced, and allows the wall thickness not to affect decoration.

Description

Building insulation thermal insulation coatings

Technical field

The present invention relates to building material field, be specifically related to a kind of building insulation thermal insulation coatings.

Background technology

The whole society is all paying attention to Building Energy-saving and is taking relevant art means, it is intended to energy-saving and cost-reducing promotion environmental protection.Mesh Before, the most conventional metope reflective insulation technology mainly has following several: (1) outdoor tile facing reflection and heat insulation, but ceramic tile Veneer thickness and cohere screed body and thicken between body of wall, ceramic tile and exterior wall cohere and easily come off, building waste increases, and falls the peaces such as brick Full hidden danger, building cost is high.(2) glass bead combines grid cloth heat-insulation and heat-preservation, reinforces as protecting with the supporting grid cloth of glass bead The heat insulation component of temperature, is equipped with cement, renewable dispersed latex, anti-crack fiber, earns the heat insulating mortar that water preparation is configured to, this construction Technology heat insulation layer gross thickness 2-3cm, big on architectural appearance impact, secondary decoration difficulty, insulating and external wall Between degree of cohering ratio more serious, easily come off, save glass bead layer and be difficult to detect, easy material reducing subtracts construction link.(3) plug-in Formula decoration of exterior wall heat-insulating composite plate, lightweight dry-hang board insulation, plug-in heat-insulating heat-preserving material has rock cotton board, glass Cotton, felt, polystyrene cystosepiment, the imitative compound poly-stupid imitative actual load plaque of the mixed soil of haydite, this external hanging type external wall thermal insulation material During installation fee, difficulty of construction is big, affects big on the decoration of monolithic architecture, and engineering cost is high.(4) polyphenyl plate cast-in-place concrete and steel Reinforced concrete heat preservation composite wall, external-wall exterior insulation.Styrofoam is built in building mould in concrete frame shear body system by this technology In plate, being arranged on the wall outer side that will pour into a mould, then pour into a mould concrete, concrete and styrofoam one-time cast-forming are compound Body of wall and steel wire net rack thermal-insulating board both sides cast or gunite concrete formed heat-insulation and heat-preservation in one armored concrete be combined Wall, this construction accounts for the leading duration and cost is high, and steel are that heat conductor can reduce heat insulation and preservation effect.Heat insulation guarantor in sum Although temperature technique effect is pretty good, but load-bearing own to building, thickness of wall body, very big on impacts such as decorations, engineering accident difficulty is big, Consumptive material and construction costs increase are the biggest.

Summary of the invention

In view of above-mentioned weak point, it is an object of the invention to provide a kind of good effect of heat insulation, easy construction, use Year limit for length, the load-bearing of building own, thickness of wall body can be alleviated, not affect the high performance building insulation thermal insulation coatings of decoration.

In order to achieve the above object, present invention employs techniques below scheme:

A kind of building insulation thermal insulation coatings, counts this coating by weight ratio and is made up of following component:

Crushed crude pearlite 5-10 part

White carbon 5-10 part

Aluminium sesquioxide 5-10 part

Ceramics 5-10 part

Glass bead 5-10 part

Titanium dioxide 1-3 part

Kaolin 1-3 part

Polyacrylate dispersion 25-35 part

Butyl acetate 0.2-0.4 part

Ethylene glycol 0.5-0.8 part

Sodium hexameta phosphate 0.8-1 part

Hydroxyethyl cellulose 0.8-1 part

Pure water is appropriate.

Further, counting by weight ratio, building insulation thermal insulation coatings is made up of following component:

Crushed crude pearlite 8 parts

White carbon 8 parts

Aluminium sesquioxide 8 parts

Ceramics 8 parts

Glass bead 8 parts

Titanium dioxide 2 parts

Kaolin 2 parts

Polyacrylate dispersion 30 parts

Butyl acetate 0.3 part

Ethylene glycol 0.6 part

Sodium hexameta phosphate 0.9 part

Hydroxyethyl cellulose 0.9 part

Pure water is appropriate.

The preparation method of described building insulation thermal insulation coatings comprises the following steps:

First by formula ratio, polyacrylate dispersion is put into stirring in lifting dispersing stirrer, whipping process adds perlite Powder, white carbon, aluminium sesquioxide, ceramics, glass bead, titanium dioxide, Kaolin, butyl acetate, ethylene glycol, sodium hexameta phosphate And hydroxyethyl cellulose, then it is supplemented with appropriate pure water, stirs 30-60 minute pulp, obtain thermal insulation coatings.

Present invention also offers a kind of lifting dispersing stirrer for preparing building insulation thermal insulation coatings, including an appearance Device, is provided with an agitating device in described container, this agitating device by shaft and cross-shaped be arranged on shaft stir Mixing blade to constitute, described stirring vane is made up of upper surface, lower surface, leading edge and trailing edge, upper surface be in the past genesis until The bent inclined-plane of trailing edge.During stirring makes building insulation thermal insulation coatings, just because of stirring vane is set to above-mentioned shape, Its stirring vane leading edge applies horizontal forward thrust to being coated with slip, and upper surface is to being coated with slip applying thrust obliquely, this Sample one so that coating mortar can operate to flow at horizontal plane and vertical plane in stirring container simultaneously and mix, so that The coating mortar being stirred uniformly mixes.

The beneficial effects of the present invention is:

(1) the present invention be directed to a kind of good effect of heat insulation of the deficiencies in the prior art research and development, easy construction, service life Grow, the load-bearing of building own, thickness of wall body can be alleviated, do not affect the high performance building insulation thermal insulation coatings of decoration, its heat insulation guarantor Temperature layer internal-external temperature difference about 10 DEG C, antipollution, few with material, construction cost is low, and manufacturing process is simple, and construction technology is easily grasped, temperature Difference is easy to detect.

(2) construction method is simple: construction method of the present invention is similar to the construction method of common building coating.

(3) applied thickness is thin: dope layer 3-5mm thickness of the present invention can reflect the radiation of 85%, and heat insulation rate is up to 55%.

(4) environmental protection, security performance are good: the present invention does not contains carcinogen and organic compound, form little building waste, without two Secondary pollution.Without inflammable compound, fire-retardant fireproof.

(5) present invention employs polyacrylate dispersion mixing butyl acetate, ethylene glycol, sodium hexameta phosphate and ethoxy Cellulose, prepared coating alkali ageing-resistant, wear-resisting, antiacid, it is coated with the effective service life in face long, after facility of the present invention, metope is coated with face has Effect service life 10-20, doubles above than other similar effective service life of coating application metope.Abrasion resistance is 6000 More than secondary.

Accompanying drawing explanation

Fig. 1 is lifting dispersing stirrer structural representation.

Fig. 2 is lifting dispersing stirrer stirring vane cross section structure schematic diagram.

In figure: 1. container；2. shaft；3. stirring vane；3.1. upper surface；3.2. lower surface；3.3. leading edge；After 3.4. Edge.

Detailed description of the invention

Embodiment

Building insulation thermal insulation coatings:

Weigh polyacrylate dispersion 300kg and put into stirring in lifting dispersing stirrer as shown in Figure 1, add in whipping process Enter crushed crude pearlite 80kg, white carbon 80kg, aluminium sesquioxide 80kg, ceramics 80kg, glass bead 80kg, titanium dioxide 20kg, Kaolin 20kg, butyl acetate 3kg, ethylene glycol 6kg, sodium hexameta phosphate 9kg and hydroxyethyl cellulose 9kg, be then supplemented with Appropriate pure water, stirs 60 minutes pulps, obtains thermal insulation coatings.Shown in Fig. 1 and Fig. 2, lift dispersing stirrer, including one Container 1, is provided with an agitating device in container 1, this agitating device by shaft 2 and cross-shaped be arranged on shaft stir Mixing blade 3 to constitute, stirring vane 3 is made up of upper surface 3.1, lower surface 3.2, leading edge 3.3 and trailing edge 3.4, and upper surface 3.1 is Until the bent inclined-plane of trailing edge 3.4 from leading edge 3.3.During stirring makes building insulation thermal insulation coatings, just because of paddle Sheet 3 is set to above-mentioned shape, and its stirring vane 3 leading edge 3.3 applies horizontal forward thrust to being coated with slip, and in bent inclined-plane Upper surface 3.1 applies thrust obliquely to being coated with slip, so so that coating mortar can be simultaneously in level in container 1 Face and vertical plane can operate to flow and mix, so that the coating mortar being stirred uniformly mixes.

The heat-insulation layer being sprayed the building insulation thermal insulation coatings of embodiment gained has carried out following performance test.

The heat-insulation layer performance test table that table 1 building insulation thermal insulation coatings is sprayed

As shown in Table 1, product heat conductivity of the present invention is low, good effect of heat insulation, water-tolerant, and tensile strength is high.

Claims (4)

1. a building insulation thermal insulation coatings, it is characterised in that: counting by weight ratio, this coating is made up of following component:

Crushed crude pearlite 5-10 part

White carbon 5-10 part

Aluminium sesquioxide 5-10 part

Ceramics 5-10 part

Glass bead 5-10 part

Titanium dioxide 1-3 part

Kaolin 1-3 part

Polyacrylate dispersion 25-35 part

Butyl acetate 0.2-0.4 part

Ethylene glycol 0.5-0.8 part

Sodium hexameta phosphate 0.8-1 part

Hydroxyethyl cellulose 0.8-1 part

Pure water is appropriate.

2. a building insulation thermal insulation coatings as claimed in claim 1, it is characterised in that: count by weight ratio, this coating It is made up of following component:

Crushed crude pearlite 8 parts

White carbon 8 parts

Aluminium sesquioxide 8 parts

Ceramics 8 parts

Glass bead 8 parts

Titanium dioxide 2 parts

Kaolin 2 parts

Polyacrylate dispersion 30 parts

Butyl acetate 0.3 part

Ethylene glycol 0.6 part

Sodium hexameta phosphate 0.9 part

Hydroxyethyl cellulose 0.9 part

Pure water is appropriate.

3. the preparation method of a building insulation thermal insulation coatings as claimed in claim 1 or 2, it is characterised in that: the method bag Include following steps:

First polyacrylate dispersion is put in lifting dispersing stirrer and stir, whipping process adds crushed crude pearlite, Linesless charcoal Black, aluminium sesquioxide, ceramics, glass bead, titanium dioxide, Kaolin, butyl acetate, ethylene glycol, sodium hexameta phosphate and hydroxyl Ethyl cellulose, is then supplemented with appropriate pure water, stirs 30-60 minute pulp, obtains thermal insulation coatings.

The preparation method of building insulation thermal insulation coatings the most according to claim 1, it is characterised in that: described lifting dispersion is stirred Mixing device, including a container (1), be provided with an agitating device in described container, this agitating device is by shaft (2) and cross-shaped The stirring vane (3) being arranged on shaft is constituted, and described stirring vane (3) is by upper surface (3.1), lower surface (3.2), leading edge (3.3) and trailing edge (3.4) is constituted, upper surface (3.1) is until the bent inclined-plane of trailing edge (3.4) from leading edge (3.3).