CN106867370A - A kind of architectural shape anti-heat radiation energy-conservation powder coating product and its processing technology - Google Patents

Abstract

The invention provides a kind of architectural shape anti-heat radiation energy-conservation powder coating product, it includes polyester resin 40 80%, curing agent 3 6%, levelling agent 1 3%, styrax 0.2 4%, anti-infra-red radiation pigment 20 45%, hollow glass microbead 5 20%.Present invention increase indoor and outdoor energy exchange thermal resistance is the Main Means that energy saving building is used, and with the substantial amounts of application of architectural aluminum section, the thermal resistance of aluminium section bar could not be efficiently solved always.The present invention makes aluminium section bar increased thermal resistance effect on the basis of architectural aluminum section coating decoration and protection type is not reduced, and reaches the purpose of energy-conservation.

Description

A kind of architectural shape anti-heat radiation energy-conservation powder coating product and its processing technology

Technical field

The present invention relates to powder coating solidification accelerator technical field, and in particular to a kind of architectural shape anti-heat radiation Energy-conservation powder coating product and its processing technology.

Background technology

Powdery paints is the form entirely different with general coating, and it is present with the state of attritive powder.Due to not Using solvent, so referred to as powdery paints.The main feature of powdery paints has：With harmless, high efficiency, save resources and environmental protection Feature.

It has two major classes：Thermoplastic powder coating and thermosetting powder coating.

Thermosetting powder coating is made up of thermosetting resin, curing agent, pigment, filler and auxiliary agent etc..Powder thermosetting Coating includes：Epoxy resin, Polyester, acrylic resin.

Common architectural shape powdery paints refers to ornamental and corresponding barrier propterty do not possess the work(of thermal resistance energy-conservation Energy.This problems demand is solved.

The content of the invention

It is rational in infrastructure it is an object of the invention to provide one kind for the deficiencies in the prior art, easy to use one Architectural shape anti-heat radiation energy-conservation powder coating product and its processing technology are planted, it solves these above-mentioned problems.

The technical solution adopted in the present invention is as follows：A kind of architectural shape anti-heat radiation energy-conservation powder coating product, It includes polyester resin 40-80%, curing agent 3-6%, levelling agent 1-3%, styrax 0.2-4%, anti-infra-red radiation pigment 20- 45%, hollow glass microbead 5-20%.

Preferably, the anti-infra-red radiation pigment is coated type IR pigment.

Preferably, titanium dioxide crystal or titanium dioxide are contained in the anti-infra-red radiation pigment.

Preferably, anthraquinone is contained in the anti-infra-red radiation pigment, phthalocyanine is indigo-blue, thioindigo, quinacridone one kind therein Or it is several.

Preferably, this product also includes flakey metallic pigments.

A kind of architectural shape processing technology of anti-heat radiation energy-conservation powder coating product, first by polyester resin, solidification Mix 5 minutes in agent, auxiliary agent and reflection infrared ray pigment input material-compound tank, feeding double screw extruder carries out heat kneading extrusion, Broken through compressing tablet cooling, feeding flour mill is milled to qualified fineness, sieving, by the powder input heat binding tank of milled, in addition Empty glass microballoon carries out hot binding, blowing cooling after binding is good, sieving packaging.

Beneficial effects of the present invention include：

Present invention increase indoor and outdoor energy exchange thermal resistance is the Main Means that energy saving building is used, as architectural aluminum section is big The application of amount, the thermal resistance of aluminium section bar could not be efficiently solved always.The present invention do not reduce architectural aluminum section coating decoration and Aluminium section bar is increased thermal resistance effect on the basis of protection type, reach the purpose of energy-conservation.

Infrared reflecting paint has reflectivity higher to the infrared energy in solar radiant energy, so, scribbles infrared The building structure for reflecting pigment is able to maintain that more permanent cooling state, so as to help reduce air conditioner refrigerating energy ezpenditure, and subtracts Few corresponding greenhouse gas emission.The cooling effect of the reflecting sun heat radiation energy of the infrared reflecting paint in polymer product, It is unlikely to deform its polymer product.The structure of infrared reflecting paint has been used in atmospheric exposure test, it is optimal in durability In many color formulas in system, unusual performance is shown.

Brief description of the drawings

Fig. 1 is a kind of architectural shape anti-heat radiation energy-conservation powder coating product of the invention and its processing technology block diagram.

Specific embodiment

With reference to specific embodiment, the present invention is described in detail.

A kind of architectural shape anti-heat radiation energy-conservation powder coating product, it includes polyester resin 40-80%, curing agent 3-6%, levelling agent 1-3%, styrax 0.2-4%, anti-infra-red radiation pigment 20-45%, hollow glass microbead 5-20%.

The anti-infra-red radiation pigment is coated type IR pigment.

Contain titanium dioxide crystal or titanium dioxide in the anti-infra-red radiation pigment.

Contain anthraquinone in the anti-infra-red radiation pigment, phthalocyanine is indigo-blue, thioindigo, quinacridone it is therein one or more.

This product also includes flakey metallic pigments.

A kind of architectural shape processing technology of anti-heat radiation energy-conservation powder coating product, first by polyester resin, solidification Mix 5 minutes in agent, auxiliary agent and reflection infrared ray pigment input material-compound tank, feeding double screw extruder carries out heat kneading extrusion, Broken through compressing tablet cooling, feeding flour mill is milled to qualified fineness, sieving, by the powder input heat binding tank of milled, in addition Empty glass microballoon carries out hot binding, blowing cooling after binding is good, sieving packaging.

Embodiment one

A kind of architectural shape anti-heat radiation energy-conservation powder coating product, it includes polyester resin 55%, curing agent 3%, levelling agent 1%, styrax 1%, anti-infra-red radiation pigment 35%, hollow glass microbead 5%.

The anti-infra-red radiation pigment is coated type IR pigment.

Contain titanium dioxide crystal or titanium dioxide in the anti-infra-red radiation pigment.

Contain anthraquinone in the anti-infra-red radiation pigment, phthalocyanine is indigo-blue, thioindigo, quinacridone it is therein one or more.

This product also includes flakey metallic pigments.

A kind of architectural shape processing technology of anti-heat radiation energy-conservation powder coating product, first by polyester resin, solidification Mix 5 minutes in agent, auxiliary agent and reflection infrared ray pigment input material-compound tank, feeding double screw extruder carries out heat kneading extrusion, Broken through compressing tablet cooling, feeding flour mill is milled to qualified fineness, sieving, by the powder input heat binding tank of milled, in addition Empty glass microballoon carries out hot binding, blowing cooling after binding is good, sieving packaging.

Embodiment two

A kind of architectural shape anti-heat radiation energy-conservation powder coating product, it includes polyester resin 65%, curing agent 3%, levelling agent 3%, styrax 4%, anti-infra-red radiation pigment 15%, hollow glass microbead 10%.

The anti-infra-red radiation pigment is coated type IR pigment.

Contain titanium dioxide crystal or titanium dioxide in the anti-infra-red radiation pigment.

Contain anthraquinone in the anti-infra-red radiation pigment, phthalocyanine is indigo-blue, thioindigo, quinacridone it is therein one or more.

This product also includes flakey metallic pigments.

A kind of architectural shape processing technology of anti-heat radiation energy-conservation powder coating product, first by polyester resin, solidification Mix 5 minutes in agent, auxiliary agent and reflection infrared ray pigment input material-compound tank, feeding double screw extruder carries out heat kneading extrusion, Broken through compressing tablet cooling, feeding flour mill is milled to qualified fineness, sieving, by the powder input heat binding tank of milled, in addition Empty glass microballoon carries out hot binding, blowing cooling after binding is good, sieving packaging.

Embodiment three

A kind of architectural shape anti-heat radiation energy-conservation powder coating product, it includes polyester resin 60%, curing agent 4.5%, levelling agent 1%, styrax 0.5%, anti-infra-red radiation pigment 34%, hollow glass microbead 10%.

The anti-infra-red radiation pigment is coated type IR pigment.

Contain titanium dioxide crystal or titanium dioxide in the anti-infra-red radiation pigment.

Contain anthraquinone in the anti-infra-red radiation pigment, phthalocyanine is indigo-blue, thioindigo, quinacridone it is therein one or more.

This product also includes flakey metallic pigments.

A kind of architectural shape processing technology of anti-heat radiation energy-conservation powder coating product, first by polyester resin, solidification Mix 5 minutes in agent, auxiliary agent and reflection infrared ray pigment input material-compound tank, feeding double screw extruder carries out heat kneading extrusion, Broken through compressing tablet cooling, feeding flour mill is milled to qualified fineness, sieving, by the powder input heat binding tank of milled, in addition Empty glass microballoon carries out hot binding, blowing cooling after binding is good, sieving packaging.

Above-mentioned implementation method is the preferred embodiments of the present invention, is not for limiting implementation of the invention and right model Enclose, equivalence changes and modification that all contents according to described in the present patent application scope of patent protection are made all should be included in this In patent application the scope of the claims.

Claims (6)

1. a kind of architectural shape anti-heat radiation energy-conservation powder coating product, it is characterised in that：It includes polyester resin 40- 80%, curing agent 3-6%, levelling agent 1-3%, styrax 0.2-4%, anti-infra-red radiation pigment 20-45%, hollow glass microbead 5-20%.

2. a kind of architectural shape according to claim 1 anti-heat radiation energy-conservation powder coating product, it is characterised in that The anti-infra-red radiation pigment is coated type IR pigment.

3. a kind of architectural shape according to claim 1 anti-heat radiation energy-conservation powder coating product, it is characterised in that Contain titanium dioxide crystal or titanium dioxide in the anti-infra-red radiation pigment.

4. a kind of architectural shape according to claim 1 anti-heat radiation energy-conservation powder coating product, it is characterised in that Contain anthraquinone in the anti-infra-red radiation pigment, phthalocyanine is indigo-blue, thioindigo, quinacridone it is therein one or more.

5. a kind of architectural shape according to claim 1 anti-heat radiation energy-conservation powder coating product, it is characterised in that This product also includes flakey metallic pigments.

6. a kind of architectural shape processing technology of anti-heat radiation energy-conservation powder coating product, it is characterised in that first by polyester Mix 5 minutes in resin, curing agent, auxiliary agent and reflection infrared ray pigment input material-compound tank, feeding double screw extruder carries out heat Kneading extrusion, broken through compressing tablet cooling, feeding flour mill is milled to qualified fineness, sieving, by the powder input heat binding tank of milled In, add hollow glass microbead to carry out hot binding, blowing cooling after binding is good, sieving packaging.