CN105440751A

CN105440751A - Thermal insulation coating for curtain-wall glass and production method of thermal insulation coating

Info

Publication number: CN105440751A
Application number: CN201510995802.5A
Authority: CN
Inventors: 顾黎明; 徐峰
Original assignee: TAICANG YAOHUA GLASS CO Ltd
Current assignee: TAICANG YAOHUA GLASS CO Ltd
Priority date: 2015-12-28
Filing date: 2015-12-28
Publication date: 2016-03-30

Abstract

The invention provides a thermal insulation coating for curtain-wall glass and a production method of the thermal insulation coating. The thermal insulation coating contains the following components in parts by weight: nano-ATO slurry, nano-silicon carbide, dioctyl adipate, nano-zinc oxide, nano-antimony oxide, polyacrylamide, mannitol, chitosan, benzotriazole, attapulgite, mica powder, cobalt oxide powder, diatomaceous earth, a low-surface-energy adhesive, a leveling agent, a wetting agent, a dispersing agent, an antifoaming agent, an antioxidant and deionized water. By virtue of the thermal insulation coating, a protecting layer with good thermal insulation effect can be formed on the surface of the curtain-wall glass; the components of the coating are reasonably matched, the production method is easy to operate, the coating can be formed on the surface of the curtain-wall glass by only spraying, and the use is easy; and the coating is unlikely to fall after the coating, and is long in service life, low in economic cost and good in use prospect.

Description

A kind of cladding glass thermal insulation coat and production method thereof

Technical field

The present invention relates to a kind of cladding glass thermal insulation coat and production method thereof.

Background technology

Glass curtain wall (reflectionglasscurtainwall), refers to and opposing body structure can be had certain displacement ability, do not share the building external envelope structure or decorating structure that act on suffered by agent structure by support system.Body of wall has individual layer and double glazing two kinds.Glass curtain wall is a kind of construction wall trailing of novelty attractive in appearance, is the notable feature in modernism Highrise buildings epoch.The glass curtain wall of modernization Highrise buildings have employed and combined by two-way mirror and simple glass, and interlayer is filled with the double glazing of dry air or rare gas element.Double glazing have two-layer and three layers point, two-layer double glazing adds seal frame by layer glass, forms a mezzanine space; Triplex glass is then form two mezzanine spaces by triplex glass.Double glazing has the advantages such as sound insulation, heat insulation, antifrost, protection against the tide, wind pressure resistant strength be large.According to measurement, when external temperature is-10 DEG C, the temperature before layer glass window is-2 DEG C, and uses the room temp of three layers of double glazing to be 13 DEG C.And at hot summer, double glazing unit can block the solar radiant heat of 90%.Sunlight still can through glass curtain wall, but shines and scarcely can feel hot with it.Use the room of hollow glass curtain wall can accomplish cool in summer and warm in winter, significantly improve living environment.

But though glass curtain wall has certain heat insulating effect, existing most of glass curtain wall heat insulating effect is also not obvious.

To this, the following patent documentation of current domestic main existence:

Patent publication No.: CN104974581A, discloses a kind of super-hydrophobic heat insulating coat and preparation method thereof.This coating mainly all has porous air film layer that is super-hydrophobic and effect of heat insulation by the water body for differing temps and forms, described porous air film layer comprises the solid phase material of low heat conductivity, and is distributed in the multiple pores in described solid phase material or between solid phase material; Wherein, the air vent aperture in described porous air film layer is 10 ~ 300nm, and porosity is 85 ~ 99%.Further, the thermal conductivity of described coating is 0.01 ~ 0.18W/km, and its surface also has rough microstructure.Preferably, described porous gas film surface is also modified with low-surface energy substance.Coating of the present invention all has super-hydrophobic and effect of heat insulation efficiently to the water body of differing temps, and security is good, low consumption environment protection, be easy to preparation, there is good prospects for commercial application, such as, can be applicable to all many-sides such as building, space flight, storage, and be not limited thereto.But the coating that this patent provides, although have certain effect of heat insulation, because the existence of its honeycomb sandwich, makes its heat insulation effect and not obvious.

Summary of the invention

For solving above-mentioned Problems existing; the object of the present invention is to provide a kind of cladding glass thermal insulation coat and production method thereof; described coating can form the good protective layer of one deck heat insulation and preservation effect on cladding glass surface; coated component collocation rationally, production method is easy to operate, and only need spray use and can form coating on cladding glass surface, use simple; and difficult drop-off after coating; long service life, Financial cost is low, and prospect of the application is good.

For achieving the above object, technical scheme of the present invention is:

A kind of cladding glass thermal insulation coat, described coating comprises the composition of following weight part: nano ATO slurry: 20 ~ 30 parts, nanometer silicon carbide: 10 ~ 15 parts, Octyl adipate: 1 ~ 5 part, nano zine oxide: 1 ~ 5 part, nanometer antimony oxide: 0.1 ~ 1 part, polyacrylamide: 1 ~ 5 part, N.F,USP MANNITOL: 5 ~ 10 parts, chitosan: 1 ~ 5 part, benzotriazole: 1 ~ 5 part, attapulgite: 10 ~ 20 parts, mica powder: 6 ~ 10 parts, cobalt oxide powder: 0.1 ~ 1 part, diatomite: 1 ~ 5 part, low surface energy binding agent: 10 ~ 20 parts, flow agent: 1 ~ 5 part, wetting agent: 1 ~ 10 part, dispersion agent: 5 ~ 10 parts, defoamer: 1 ~ 5 part, oxidation inhibitor: 1 ~ 5 part, deionized water: 50 ~ 100 parts.

Further, described coating comprises the composition of following weight part: nano ATO slurry: 25 ~ 30 parts, nanometer silicon carbide: 10 ~ 13 parts, Octyl adipate: 2 ~ 5 parts, nano zine oxide: 3 ~ 5 parts, nanometer antimony oxide: 0.1 ~ 0.5 part, polyacrylamide: 1 ~ 3 part, N.F,USP MANNITOL: 5 ~ 8 parts, chitosan: 1 ~ 4 part, benzotriazole: 2 ~ 5 parts, attapulgite: 15 ~ 20 parts, mica powder: 6 ~ 8 parts, cobalt oxide powder: 0.5 ~ 1 part, diatomite: 3 ~ 5 parts, low surface energy binding agent: 10 ~ 13 parts, flow agent: 1 ~ 3 part, wetting agent: 1 ~ 5 part, dispersion agent: 5 ~ 10 parts, defoamer: 1 ~ 5 part, oxidation inhibitor: 1 ~ 5 part, deionized water: 50 ~ 80 parts.

Preferably, described coating comprises the composition of following weight part: nano ATO slurry: 25 parts, nanometer silicon carbide: 13 parts, Octyl adipate: 3 parts, nano zine oxide: 4 parts, nanometer antimony oxide: 0.5 part, polyacrylamide: 2 parts, N.F,USP MANNITOL: 6 parts, chitosan: 1 part, benzotriazole: 2 parts, attapulgite: 15 parts, mica powder: 7 parts, cobalt oxide powder: 0.5 part, diatomite: 4 parts, low surface energy binding agent: 13 parts, flow agent: 2 parts, wetting agent: 3 parts, dispersion agent: 6 parts, defoamer: 3 parts, oxidation inhibitor: 2 parts, deionized water: 60 parts.

Separately, described flow agent is polydimethylsiloxane, PSI or polyester resin change properties of organic silicon oxygen alkane.

Separately have, described dispersion agent is Yelkin TTS, trimethyl-glycine or glycerin fatty acid ester.

Again, described defoamer is silicone emulsion, higher alcohols or phenylethyl alcohol oleic acid ester.

Further, described low-surface energy substance is silicon fluoride, siloxanes, tetrafluoroethylene, silane coupling agent, Union carbide A-162, vinyltrimethoxy silane or phenyltrimethoxysila,e.

And described oxidation inhibitor is antioxidant 1010 or oxidation inhibitor 1098.

Simultaneously, the present invention also provides a kind of production method of cladding glass thermal insulation coat, comprise the steps: nanometer silicon carbide pyroprocessing 30 ~ 60min at 600 ~ 800 DEG C, room temperature is cooled in 10 ~ 20min, ultrasonic grinding 10 ~ 20min becomes powder, add in Scattered Kettle, and add deionized water and nano ATO slurry, carry out shearing dispersion 30 ~ 50min with the speed of 800 ~ 1000 turns/min; Rotating speed is adjusted to 1000 ~ 1200 turns/min, in Scattered Kettle, adds polyacrylamide, Octyl adipate, nano zine oxide, nanometer antimony oxide stirring 5 ~ 10min; Rotating speed is adjusted to 1200 ~ 1400 turns/min, adds N.F,USP MANNITOL, chitosan, benzotriazole, attapulgite, mica powder, cobalt oxide powder and diatomite and stir 10 ~ 20min; Rotating speed is adjusted to 1400 ~ 1600 turns/min, adds low surface energy binding agent, flow agent, wetting agent, dispersion agent, defoamer, oxidation inhibitor uniform stirring 30 ~ 50min successively; By the material at room temperature bake drying after dispersion, bake out temperature 100 ~ 120 DEG C, drying time 20 ~ 30min, solidification, grinding distribution, obtains described cladding glass thermal insulation coat.

Separately have, described coat-thickness is 5 ~ 10 μm, and thermal conductivity is 0.01 ~ 0.05W/mK.

Beneficial effect of the present invention is:

Described coating can form the good protective layer of one deck heat insulation and preservation effect on cladding glass surface; coated component collocation is reasonable, production method is easy to operate; and only need spray use can cladding glass surface formed coating; use simple; and difficult drop-off after coating; long service life, Financial cost is low, and prospect of the application is good.

Embodiment

Below in conjunction with specific embodiment, the present invention is described in detail.Following examples will contribute to those skilled in the art and understand the present invention further, but not limit the present invention in any form.It should be pointed out that to those skilled in the art, without departing from the inventive concept of the premise, some distortion and improvement can also be made.These all belong to protection scope of the present invention.

A kind of cladding glass thermal insulation coat of the present invention, described coating comprises the composition of following weight part: nano ATO slurry: 20 ~ 30 parts, nanometer silicon carbide: 10 ~ 15 parts, Octyl adipate: 1 ~ 5 part, nano zine oxide: 1 ~ 5 part, nanometer antimony oxide: 0.1 ~ 1 part, polyacrylamide: 1 ~ 5 part, N.F,USP MANNITOL: 5 ~ 10 parts, chitosan: 1 ~ 5 part, benzotriazole: 1 ~ 5 part, attapulgite: 10 ~ 20 parts, mica powder: 6 ~ 10 parts, cobalt oxide powder: 0.1 ~ 1 part, diatomite: 1 ~ 5 part, low surface energy binding agent: 10 ~ 20 parts, flow agent: 1 ~ 5 part, wetting agent: 1 ~ 10 part, dispersion agent: 5 ~ 10 parts, defoamer: 1 ~ 5 part, oxidation inhibitor: 1 ~ 5 part, deionized water: 50 ~ 100 parts.

Separately have, described coat-thickness is 5 ~ 10 μm, and hot coefficient is 0.01 ~ 0.05W/mK.

Wherein, a kind of ingredient lists of cladding glass thermal insulation coat that provides for various embodiments of the present invention of table 1.Table 2 is coated on the cladding glass heat-proof quality after cladding glass and antisweat frosting capabilities list for a kind of cladding glass thermal insulation coat that various embodiments of the present invention provide.

Table 1 (unit: weight part)

Table 2

From table 2, after cladding glass thermal insulation coat provided by the present invention is coated on cladding glass surface, thermal and insulating performance is good and close dew temperature is low.

A kind of cladding glass thermal insulation coat provided by the present invention and production method thereof; described coating can form the good protective layer of one deck heat insulation and preservation effect on cladding glass surface; coated component collocation is reasonable, production method is easy to operate; and only need spray use can cladding glass surface formed coating; use simple, and difficult drop-off after coating, long service life; Financial cost is low, and prospect of the application is good.

It should be noted that, above embodiment is only in order to illustrate technical scheme of the present invention and unrestricted.Although with reference to preferred embodiment to invention has been detailed description, those of ordinary skill in the art is to be understood that, can modify to the technical scheme of invention or equivalent replacement, and not depart from the scope of technical solution of the present invention, it all should be encompassed in right of the present invention.

Claims

1. a cladding glass thermal insulation coat, it is characterized in that, described coating comprises the composition of following weight part: nano ATO slurry: 20 ~ 30 parts, nanometer silicon carbide: 10 ~ 15 parts, Octyl adipate: 1 ~ 5 part, nano zine oxide: 1 ~ 5 part, nanometer antimony oxide: 0.1 ~ 1 part, polyacrylamide: 1 ~ 5 part, N.F,USP MANNITOL: 5 ~ 10 parts, chitosan: 1 ~ 5 part, benzotriazole: 1 ~ 5 part, attapulgite: 10 ~ 20 parts, mica powder: 6 ~ 10 parts, cobalt oxide powder: 0.1 ~ 1 part, diatomite: 1 ~ 5 part, low surface energy binding agent: 10 ~ 20 parts, flow agent: 1 ~ 5 part, wetting agent: 1 ~ 10 part, dispersion agent: 5 ~ 10 parts, defoamer: 1 ~ 5 part, oxidation inhibitor: 1 ~ 5 part, deionized water: 50 ~ 100 parts.

2. a kind of cladding glass thermal insulation coat according to claim 1, it is characterized in that, described coating comprises the composition of following weight part: nano ATO slurry: 25 ~ 30 parts, nanometer silicon carbide: 10 ~ 13 parts, Octyl adipate: 2 ~ 5 parts, nano zine oxide: 3 ~ 5 parts, nanometer antimony oxide: 0.1 ~ 0.5 part, polyacrylamide: 1 ~ 3 part, N.F,USP MANNITOL: 5 ~ 8 parts, chitosan: 1 ~ 4 part, benzotriazole: 2 ~ 5 parts, attapulgite: 15 ~ 20 parts, mica powder: 6 ~ 8 parts, cobalt oxide powder: 0.5 ~ 1 part, diatomite: 3 ~ 5 parts, low surface energy binding agent: 10 ~ 13 parts, flow agent: 1 ~ 3 part, wetting agent: 1 ~ 5 part, dispersion agent: 5 ~ 10 parts, defoamer: 1 ~ 5 part, oxidation inhibitor: 1 ~ 5 part, deionized water: 50 ~ 80 parts.

3. a kind of cladding glass thermal insulation coat according to claim 1, it is characterized in that, described coating comprises the composition of following weight part: nano ATO slurry: 25 parts, nanometer silicon carbide: 13 parts, Octyl adipate: 3 parts, nano zine oxide: 4 parts, nanometer antimony oxide: 0.5 part, polyacrylamide: 2 parts, N.F,USP MANNITOL: 6 parts, chitosan: 1 part, benzotriazole: 2 parts, attapulgite: 15 parts, mica powder: 7 parts, cobalt oxide powder: 0.5 part, diatomite: 4 parts, low surface energy binding agent: 13 parts, flow agent: 2 parts, wetting agent: 3 parts, dispersion agent: 6 parts, defoamer: 3 parts, oxidation inhibitor: 2 parts, deionized water: 60 parts.

4. a kind of cladding glass thermal insulation coat according to claim 1, is characterized in that, described flow agent is polydimethylsiloxane, PSI or polyester resin change properties of organic silicon oxygen alkane.

5. a kind of cladding glass thermal insulation coat according to claim 1, is characterized in that, described dispersion agent is Yelkin TTS, trimethyl-glycine or glycerin fatty acid ester.

6. a kind of cladding glass thermal insulation coat according to claim 1, is characterized in that, described defoamer is silicone emulsion, higher alcohols or phenylethyl alcohol oleic acid ester.

7. a kind of cladding glass thermal insulation coat according to claim 1, it is characterized in that, described low-surface energy substance is silicon fluoride, siloxanes, tetrafluoroethylene, silane coupling agent, Union carbide A-162, vinyltrimethoxy silane or phenyltrimethoxysila,e.

8. a kind of cladding glass thermal insulation coat according to claim 1, is characterized in that, described oxidation inhibitor is antioxidant 1010 or oxidation inhibitor 1098.

9. the production method of the cladding glass thermal insulation coat according to any one of claim 1 ~ 8, it is characterized in that, comprise the steps: nanometer silicon carbide pyroprocessing 30 ~ 60min at 600 ~ 800 DEG C, room temperature is cooled in 10 ~ 20min, ultrasonic grinding 10 ~ 20min becomes powder, add in Scattered Kettle, and add deionized water and nano ATO slurry, carry out shearing dispersion 30 ~ 50min with the speed of 800 ~ 1000 turns/min; Rotating speed is adjusted to 1000 ~ 1200 turns/min, in Scattered Kettle, adds polyacrylamide, Octyl adipate, nano zine oxide, nanometer antimony oxide stirring 5 ~ 10min; Rotating speed is adjusted to 1200 ~ 1400 turns/min, adds N.F,USP MANNITOL, chitosan, benzotriazole, attapulgite, mica powder, cobalt oxide powder and diatomite and stir 10 ~ 20min; Rotating speed is adjusted to 1400 ~ 1600 turns/min, adds low surface energy binding agent, flow agent, wetting agent, dispersion agent, defoamer, oxidation inhibitor uniform stirring 30 ~ 50min successively; By the material at room temperature bake drying after dispersion, bake out temperature 100 ~ 120 DEG C, drying time 20 ~ 30min, solidification, grinding distribution, obtains described cladding glass thermal insulation coat.

10. the production method of a kind of cladding glass thermal insulation coat according to claim 9, is characterized in that, described coat-thickness is 5 ~ 10 μm, and thermal conductivity is 0.01 ~ 0.05W/mK.