CN106189393A - A kind of negative oxygen ion dry powder paint and preparation method thereof - Google Patents

Abstract

The invention discloses a kind of negative oxygen ion dry powder paint, belong to technical field of coatings.This coating includes the component of following mass percent: sierozem power 25% 35%, kieselguhr 6.2% 8.0%, anionic additive 4.5% 6.5%, antibacterial 1.5% 5.0%, Pulvis Talci 0.15% 0.80%, Kaolin 0.15% 0.80%, wollastonite 0.15% 0.50%, surfactant 0.05% 0.15%, redispersible latex powder 0.55% 1.5%, light calcium carbonate powder 1.2% 1.8%, lithopone 0.15% 0.50%, surplus are dicalcium powder.The features such as this coating has the harmful gass such as efficient absorption formaldehyde, the most enduringly anion releasing, anti-mildew becomes and sterilizing ability is strong, good permeability, the humidity of adjustable room air, the intensity of coating and good toughness, water-wash resistance are good.

Description

A kind of negative oxygen ion dry powder paint and preparation method thereof

Technical field

The present invention relates to technical field of coatings, particularly to a kind of negative oxygen ion dry powder paint and preparation method thereof.

Background technology

The quality of IAQ (indoor air quality) has important impact to the health of human body, along with development and the progress of society, more Carry out the decorated finishing in indoor of the most buildings, generally add in indoor new furniture or on metope coating process to fit up room In, but fit up the harmful gass such as the furniture in rear chamber or the volatile formaldehyde of coating, VOC, and the metope after application easily occurs Mouldy or the phenomenon of breed bacteria, affects the health of human body.And, in living environment, there is trade waste discharge, rubbish The phenomenons such as burning, electromagnetic pollution, cause the anion in outdoor air and room air to fall sharply, and this will reduce the immunity of human body Power, affects health.Additionally, the humidity of room air also has important impact to the health of human body.Continuous along with technology Progressive, functional coating can be used to carry out the harmful gas in absorption chamber, prevent metope from going mouldy or breed bacteria, increase room Interior negative ion concentration, and adjust the humidity of indoor, therefore it provides a kind of coating with above-mentioned functions is the most necessary.

Prior art provides a kind of negative ion paint, and this coating includes according to parts by weight: activated calcium powder 100-300 Part, Paris white 200-700 part, anion powder 50-200 part, organic gel gel material 1-10 part, cellulose 1-5 part, above-mentioned bear from Sub-powder is the mixed powder of ultra-fine tourmaline powder and physisorption material.This negative ion paint can harmful gas such as formaldehyde adsorption Body, anion releasing improves the quality of room air.

Inventor finds that prior art at least there is problems in that

The negative ion paint that prior art provides absorbs the ability of the harmful gas such as formaldehyde, VOC, the negative ion amount of release Few, anti-mildew becomes and sterilizing ability is poor, the metope poor air permeability after using, it is impossible to adjust the humidity of room air, the intensity of coating And poor toughness, water-wash resistance is poor.

Summary of the invention

Embodiment of the present invention technical problem to be solved is, it is provided that a kind of formaldehyde that do not contains itself, and can be high Effect absorbs 300 kinds of harmful substances, the most enduringly anion releasings such as formaldehyde, VOC, and anti-mildew becomes and sterilizing ability is strong, breathability Good, the humidity of adjustable room air, the intensity of coating and good toughness, negative oxygen ion dry powder paint that water-wash resistance is good and system thereof Preparation Method.Concrete technical scheme is as follows:

First aspect, embodiments provides a kind of negative oxygen ion dry powder paint, and described coating includes following quality The component of percentage ratio: sierozem power 25%-35%, kieselguhr 6.2%-8.0%, anionic additive 4.5%-6.5%, antibacterial 1.5%-5.0%, Pulvis Talci 0.15%-0.80%, Kaolin 0.15%-0.80%, wollastonite 0.15%-0.50%, surface Activating agent 0.05%-0.15%, redispersible latex powder 0.55%-1.5%, light calcium carbonate powder 1.2%-1.8%, lithopone 0.15%-0.50%, surplus are dicalcium powder.

Specifically, as preferably, described coating includes the component of following mass percent: sierozem power 27%-32%, diatom Soil 7.5%-8.0%, anionic additive 4.8%-5.2%, antibacterial 2.8%-3.4%, Pulvis Talci 0.4%-0.6%, height Ridge soil 0.4%-0.6%, wollastonite 0.2%-0.4%, surfactant 0.08%-0.12%, redispersible latex powder 0.8%-1.2%, light calcium carbonate powder 1.4%-1.6%, lithopone 0.26%-0.34%, surplus are dicalcium powder.

Specifically, as preferably, described anionic additive includes the component of following mass percent: aluminium oxide 31%- 41%, boron oxide 7%-13%, titanium dioxide 3%-6%, ferrum oxide 1.1%-1.7%, ferrous oxide 0.7%-1.2%, oxygen Change magnesium 0.1%-0.4%, lithium oxide 0.1%-0.3%, manganese monoxide 0.1%-0.3%, surplus are silicon dioxide.

Specifically, as preferably, described antibacterial be silver zinc inorganic complex antimicrobials, copper system inorganic complex antimicrobials or Titanium system inorganic complex antimicrobials.

Specifically, as preferably, described silver zinc inorganic complex antimicrobials includes the component of following mass percent: aluminium oxide 29%-33%, silver nitrate 7%-11%, zinc nitrate 7%-11%, zeolite 7.8%-8.8%, ferrum oxide 1.1%-1.6%, oxygen The ferrous 0.42%-1.1% of change, magnesium oxide 0.25%-0.4%, manganese monoxide 0.12%-0.3%, surplus are silicon dioxide.

Specifically, as preferably, described redispersible latex powder is selected from acrylic acid rubber powder, sbr powder, ethyl vinyl acetate Ethylene copolymer rubber powder, SB rubber powder, vinylacetate-ethylene-methylmethacrylate copolymer glue At least one in powder, ethylene-vinyl chloride-vinyl laurate terpolymer rubber powder.

Specifically, as preferably, described surfactant is selected from sodium carboxymethyl cellulose, hydroxyethyl cellulose, hydroxypropyl At least one in methylcellulose, sodium polyacrylate, dodecyl sodium sulfate, alkylphenol polyoxyethylene.

Specifically, as preferably, described lithopone is the mixture of zinc sulfide and barium sulfate, described zinc sulfide and described sulfur The mass ratio of acid barium is 1:0.5-3.

Specifically, as preferably, the mesh number of described dicalcium powder is 340-450 mesh, and the mesh number of described sierozem power is 340-450 Mesh, described diatomaceous mesh number is 900-1100 mesh, and described kaolinic mesh number is 750-850 mesh, the mesh number of described wollastonite For 750-850 mesh, the mesh number of described light calcium carbonate powder is 340-450 mesh.

Second aspect, embodiments provides the preparation method of above-mentioned coating, and described preparation method includes following step Rapid:

According to the mass percent of component each in coating, by dicalcium powder, sierozem power, kieselguhr, anionic additive, antibacterial Agent, Pulvis Talci, Kaolin, wollastonite, surfactant, redispersible latex powder, light calcium carbonate powder, lithopone join blender Middle stirring 16-29min, obtains described negative oxygen ion dry powder paint.

The technical scheme that the embodiment of the present invention provides has the benefit that

The anion dry powder paint that the embodiment of the present invention provides, by adding the diatom with porous feature in coating Soil, the coating that enhancing the embodiment of the present invention provides absorbs the ability of 300 kinds of harmful substances such as formaldehyde, VOC, and kieselguhr has There are the features such as excellent moisture expantion, moisture releasing reduction and water translocation, the humidity of indoor can be adjusted.Add by adding anion Add the coating anion releasing the most constantly that agent can make the embodiment of the present invention provide, improve the immunity of human body Power, can eliminate the harmful gas in air and particulate matter simultaneously, it is possible to play the effect purifying air.Can by adding antibacterial To avoid wall breed bacteria or to kill the antibacterial grown.Can play generate coating by interpolation Pulvis Talci, lithopone The effect of skeleton, strengthens the tensile strength of coating that the embodiment of the present invention provides, and add wollastonite, Kaolin can improve The dispersive property of each component of coating, it is ensured that each uniform component distribution in coating, can improve the mechanical strength of coating, adhesive force, increasing Add ruggedness.By adding light calcium carbonate powder so that it is with dicalcium powder, sierozem power and other component synergism, substantially increase this painting The strength of coating of material and water-wash resistance.By adding surfactant, redispersible latex powder, surface tension can be reduced, Improve the mobility of coating, and the coating that the embodiment of the present invention can be made after application to provide forms the coating of high-flexibility. By the synergism of above-mentioned each component, the coating making the embodiment of the present invention provide has efficient absorption formaldehyde, VOC etc. 300 kinds Harmful substance, the most enduringly anion releasing, anti-mildew become and sterilizing ability is strong, good permeability, adjustable room air wet The features such as degree, the intensity of coating and good toughness, water-wash resistance are good.And the preparation method of the coating of embodiment of the present invention offer Technique is simple, time-consumingly few, is suitable for large-scale production and promotes the use of.

Detailed description of the invention

For making the object, technical solutions and advantages of the present invention clearer, embodiment of the present invention will be made into one below Step ground describes in detail.

First aspect, embodiments provides a kind of negative oxygen ion dry powder paint, and this coating includes following quality hundred The component of proportion by subtraction: sierozem power 25%-35%, kieselguhr 6.2%-8.0%, anionic additive 4.5%-6.5%, antibacterial 1.5%-5.0%, Pulvis Talci 0.15%-0.80%, Kaolin 0.15%-0.80%, wollastonite 0.15%-0.50%, surface Activating agent 0.05%-0.15%, redispersible latex powder 0.55%-1.5%, light calcium carbonate powder 1.2%-1.8%, lithopone 0.15%-0.50%, surplus are dicalcium powder.

The anion dry powder paint that the embodiment of the present invention provides, by adding the diatom with porous feature in coating Soil, the coating that enhancing the embodiment of the present invention provides absorbs the ability of the harmful gass such as formaldehyde, and kieselguhr has excellent The features such as moisture expantion, moisture releasing reduction and water translocation, can adjust the humidity of indoor.Permissible by adding anionic additive Make the coating anion releasing the most constantly that the embodiment of the present invention provides, improve the immunity of human body, simultaneously can Eliminate the harmful gas in air and particulate matter, it is possible to play the effect purifying air.Wall can be avoided by adding antibacterial Wall breed bacteria or kill the antibacterial grown.The work of the skeleton generating coating can be played by interpolation Pulvis Talci, lithopone With, strengthen the tensile strength of coating that the embodiment of the present invention provides, and add wollastonite, Kaolin can improve each group of coating The dispersive property divided, it is ensured that each uniform component distribution in coating, can improve the mechanical strength of coating, adhesive force, increase ruggedness. By adding light calcium carbonate powder so that it is with dicalcium powder, sierozem power and other component synergism, the coating substantially increasing this coating is strong Degree and water-wash resistance.By adding surfactant, redispersible latex powder, surface tension can be reduced, improve coating Mobility, and the coating that the embodiment of the present invention can be made after application to provide forms the coating of high-flexibility.By above-mentioned respectively The synergism of component, the coating making the embodiment of the present invention provide have 300 kinds of harmful substances such as efficient absorption formaldehyde, VOC, from So the most enduringly anion releasing, anti-mildew becomes and sterilizing ability is strong, good permeability, the humidity of adjustable room air, coating strong Degree and the feature such as good toughness, water-wash resistance be good.And the technique of the preparation method of the coating of embodiment of the present invention offer is simple, consumption Time few, be suitable for large-scale production and promoting the use of.

Wherein, the mass percent of each component in the coating provide the embodiment of the present invention controls within the above range, Each component preferably synergism can be made, and then the coating making the embodiment of the present invention provide has efficient absorption formaldehyde etc. and is harmful to Gas, the most enduringly anion releasing, anti-mildew become and sterilizing ability is strong, good permeability, the humidity of adjustable room air, painting The intensity of layer and the feature such as good toughness, water-wash resistance be good.Specifically, the matter of each component in the coating that the embodiment of the present invention provides Amount percentage ratio can be multiple, for example, the mass percent of sierozem power can be 25%, 26%, 27%, 28%, 29%, 30%, 31%, 32%, 33%, 34%, 35% etc., diatomaceous mass percent can be 6.2%, 6.6%, 7.0%, 7.4%, 7.8%, 8.0% etc., the mass percent of anionic additive can be 4.5%, 4.8%, 5.2%, 5.4%, 5.8%, 6.2%, 6.5% etc., the mass percent of antibacterial can be 1.5%, 2.0%, 2.5%, 3.0%, 3.5%, 4.0%, 4.5%, 5.0% etc., talcous mass percent can be 0.15%, 0.25%, 0.35%, 0.45%, 0.55%, 0.65%, 0.75%, 0.80% etc., kaolinic mass percent can be 0.15%, 0.25%, 0.35%, 0.45%, 0.55%, 0.65%, 0.75%, 0.80% etc., the mass percent of wollastonite can be 0.15%, 0.20%, 0.25%, 0.30%, 0.35%, 0.40%, 0.45%, 0.50% etc., the mass percent of surfactant can be 0.05%, 0.08%, 0.11%, 0.14%, 0.15% etc., the mass percent of redispersible latex powder can be 0.55%, 0.65%, 0.75%, 0.85%, 0.95%, 1.1%, 1.2%, 1.3%, 1.4%, 1.5% etc., the matter of light calcium carbonate powder Amount percentage ratio can be 1.2%, 1.3%, 1.4%, 1.5%, 1.6%, 1.7%, 1.8% etc., the mass percent of lithopone Can be 0.15%, 0.20%, 0.25%, 0.30%, 0.35%, 0.40%, 0.45%, 0.50% etc., surplus be dicalcium powder.

As preferably, in the coating that the embodiment of the present invention provides, the mass percent of each component is: sierozem power 27%- 32%, kieselguhr 7.5%-8.0%, anionic additive 4.8%-5.2%, antibacterial 2.8%-3.4%, Pulvis Talci 0.4%- 0.6%, Kaolin 0.4%-0.6%, wollastonite 0.2%-0.4%, surfactant 0.08%-0.12%, redispersible Latex powder 0.8%-1.2%, light calcium carbonate powder 1.4%-1.6%, lithopone 0.26%-0.34%, surplus are dicalcium powder.It is arranged such The coating that the percent mass ratio of each component can make the embodiment of the present invention provide preferably plays the excellent performance of each component. As preferably, in the coating that the embodiment of the present invention provides, the mass percent of each component is: sierozem power 30%, kieselguhr 7.8%, Anionic additive 5%, antibacterial 3%, Pulvis Talci 0.5%, Kaolin 0.5%, wollastonite 0.3%, surfactant 0.1%, redispersible latex powder 1.0%, light calcium carbonate powder 1.5%, lithopone 0.3%, dicalcium powder 50%, be arranged such each component Percent mass ratio the synergism between each component can be made to strengthen, and then make each of coating that the embodiment of the present invention provides Plant performance and reach optimum state.

Specifically, the anion of the anionic additive release in the coating that the embodiment of the present invention provides can be with water effect shape Becoming hydroxyl group anion, hydroxyl group anion can pass through the air in electrical neutralization, chemical reaction, physisorption clean room, and And the minimum gas in air can be oxidized to negative oxygen ion by hydroxyl group anion, negative oxygen ion is useful to health, can improve The immunity of human body.After adding anionic additive in the coating that the embodiment of the present invention provides, coating can be made at room air Middle anion releasing the most enduringly, can play the effect improving body immunity and purifying the air of a room.Wherein, anion adds Add the mixture that agent can be tourmaline powder and rare earth element powder lanthanum, indium, boron, cerium, terbium etc., it is also possible to for add boron, titanium its His inorganic non-metallic composite negative ion additive.When anionic additive is the inorganic non-metal composite material adding boron, titanium, This anionic additive includes the component of following mass percent: aluminium oxide 31%-41%, boron oxide 7%-13%, titanium dioxide Titanium 3%-6%, ferrum oxide 1.1%-1.7%, ferrous oxide 0.7%-1.2%, magnesium oxide 0.1%-0.4%, lithium oxide 0.1%-0.3%, manganese monoxide 0.1%-0.3%, surplus are silicon dioxide.For example, the mass percent of aluminium oxide can Thinking 31%, 33%, 35%, 37%, 39%, 41% etc., the mass percent of boron oxide can be 7%, 9%, 11%, 13% Can be 3%, 4%, 5%, 6% etc. Deng, the mass percent of titanium dioxide, the mass percent of ferrum oxide can be 1.1%, 1.2%, 1.3%, 1.4%, 1.5%, 1.6%, 1.7% etc., the mass percent of ferrous oxide can be 0.7%, 0.8%, 0.9%, 1.0%, 1.1%, 1.2% etc., the mass percent of magnesium oxide can be 0.1%, 0.2%, 0.3%, 0.4% etc., The mass percent of lithium oxide can be 0.1%, 0.2%, 0.3% etc., the mass percent of manganese monoxide can be 0.1%, 0.2%, 0.3% etc., surplus is silicon dioxide.Use this inorganic non-metallic composite negative ion additive can play release bear from The effect of son, it is possible to purify air, the immunity of raising human body, and this anionic additive low price, easily obtain.

As preferably, in above-mentioned inorganic non-metallic composite negative ion additive, the mass percent of each component is: titanium dioxide Silicon 46%, aluminium oxide 37%, boron oxide 11%, titanium dioxide 3%, ferrum oxide 1.4%, ferrous oxide 0.8%, magnesium oxide 0.4%, lithium oxide 0.2%, manganese monoxide 0.2%, is arranged such the mass ratio of each component in this anionic additive permissible Make the coating anion releasing the most constantly that the embodiment of the present invention provides.

Specifically, the antibacterial in the embodiment of the present invention can avoid wall to go mouldy or breed bacteria, but also can To kill the antibacterial grown, it is possible to play the effect into the good gnotobasis of indoor creation.Wherein, antibacterial is silver zinc Inorganic complex antimicrobials, copper system inorganic complex antimicrobials or titanium system inorganic complex antimicrobials, select inorganic complex antimicrobials not Meeting volatile organic compounds matter, safety and environmental protection, and preferable antibacterial effect can be played.As preferably, antibacterial is that silver zinc is inorganic Complex antimicrobials, the ability of the antibacterial or sterilization of silver zinc inorganic complex antimicrobials is strong, selects silver zinc inorganic complex antimicrobials permissible The coating making the embodiment of the present invention provide has the stronger antibacterial or ability of sterilization.

Wherein, silver zinc inorganic complex antimicrobials includes the component of following mass percent: aluminium oxide 29%-33%, nitric acid Silver 7%-11%, zinc nitrate 7%-11%, zeolite 7.8%-8.8%, ferrum oxide 1.1%-1.6%, ferrous oxide 0.42%- 1.1%, magnesium oxide 0.25%-0.4%, manganese monoxide 0.12%-0.3%, surplus are silicon dioxide.Such as, the matter of aluminium oxide Amount percentage ratio can be 29%, 30%, 31%, 32%, 33% etc., the mass percent of silver nitrate can be 7%, 8%, 9%, 10%, 11% etc., the mass percent of zinc nitrate can be 7%, 8%, 9%, 10%, 11% etc., the mass percent of zeolite Can be 7.8%, 7.9%, 8.1%, 8.3%, 8.5%, 8.7%, 8.8% etc., the mass percent of ferrum oxide can be 1.1%, 1.3%, 1.5%, 1.6% etc., the mass percent of ferrous oxide can be 0.42%, 0.52%, 0.62%, 0.72%, 0.82%, 0.92%, 1.02%, 1.1% etc., the mass percent of magnesium oxide can be 0.25%, 0.3%, 0.35%, 0.4% etc., the mass percent of manganese monoxide can be 0.12%, 0.2%, 0.3% etc., and surplus is silicon dioxide. The silver-colored zinc inorganic complex antimicrobials selecting as above component and mass ratio can play stronger antibacterial or sterilizing ability, wherein, The synergism of silver nitrate and zinc nitrate adds the antibacterial or sterilizing ability of this silver zinc inorganic complex antimicrobials, and this silver zinc Inorganic complex antimicrobials cheap, easily obtains.As preferably, this silver zinc inorganic complex antimicrobials includes following quality hundred The component of proportion by subtraction: silicon dioxide 43%, aluminium oxide 31%, zinc nitrate 7.5%, silver nitrate 7.5%, zeolite 8.2%, ferrum oxide 1.4%, ferrous oxide 0.8%, magnesium oxide 0.4%, manganese monoxide 0.2%, is arranged such in silver zinc inorganic complex antimicrobials each The mass ratio of component, can make this silver zinc inorganic complex antimicrobials reach the antibacterial or bactericidal effect of excellence.

Specifically, the renewable dispersibility latex powder in the coating that the embodiment of the present invention provides has film property and dispersion Property, the coating eventually formed can be made smooth, smooth, and there is preferable pliability.Wherein, redispersible latex powder is selected from Acrylic acid rubber powder, sbr powder, ethylene-vinyl acetate copolymer rubber powder, SB rubber powder, vinyl acetate In ester-ethylene methyl methacrylate copolymer rubber powder, ethylene-vinyl chloride-vinyl laurate terpolymer rubber powder extremely Few one.Such as redispersible latex powder can be in above-mentioned rubber powder any one, two kinds, three kinds, four kinds, five kinds or The mixture of whole six kinds.When selecting the mixture of acrylate glue powder and sbr powder, acrylic acid rubber powder and sbr powder Mass ratio is 1:0.5-2, such as, can be 1:0.5,1:1,1:1.5,1:2 etc., when selecting sbr powder and ethyl vinyl acetate second During the mixture of alkene copolymer rubber powder, sbr powder is 1:0.5-2 with the mass ratio of ethylene-vinyl acetate copolymer rubber powder, Can be such as 1:0.5,1:1,1:1.5,1:2 etc..Above-mentioned any one or more redispersible latex powder is selected to make The good film-forming property of the coating that the embodiment of the present invention provides, the pliability of coating is good, and these several redispersible latex powders hold Easily obtain.

Specifically, the surfactant in the coating that the embodiment of the present invention provides can reduce the table of various components in coating Surface tension, can make each component in coating be uniformly dispersed simultaneously, further improves the mobility of coating, and live in surface during use Property agent also with redispersable latex powder and other component synergism, make the coating eventually formed have preferable pliability.Its In, surfactant selected from sodium carboxymethyl cellulose, hydroxyethyl cellulose, hydroxypropyl methyl cellulose, sodium polyacrylate, 12 At least one in sodium alkyl sulfonate, alkylphenol polyoxyethylene.Such as surfactant can be in above-mentioned surfactant Arbitrary a kind of, two kinds, three kinds, four kinds, five kinds or whole six kinds.When selecting hydroxypropyl methyl cellulose and carboxymethyl cellulose During the mixture of sodium, hydroxypropyl methyl cellulose is 1:0.5-2 with the mass ratio of sodium carboxymethyl cellulose, such as, can be 1: 0.5,1:1,1:1.5,1:2 etc., when selecting the mixture of sodium carboxymethyl cellulose and sodium polyacrylate, sodium carboxymethyl cellulose It is 1:0.5-2 with the mass ratio of sodium polyacrylate, such as, can be 1:0.5,1:1,1:1.5,1:2 etc., when selecting hydroxypropyl During the mixture of methylcellulose, sodium polyacrylate and dodecyl sodium sulfate, hydroxypropyl methyl cellulose, sodium polyacrylate with The mass ratio of dodecyl sodium sulfate is 1:0.5-2:0.5-2, can be such as 1:0.5:0.5,1:1:1,1:1.5:1.5, 1:2:2 etc..The dispersion effect of above-mentioned several surfactant is good, cheap, easily obtains.

Specifically, the lithopone in the coating that the embodiment of the present invention provides can be with Pulvis Talci, dicalcium powder, sierozem power, light Calcium powder synergism, contributes to being formed the skeleton of coating, strengthens the tensile strength of the coating that the embodiment of the present invention provides.Wherein, Lithopone is the mixture of zinc sulfide and barium sulfate, and zinc sulfide is 1:0.5-3, such as zinc sulfide and sulfur with the mass ratio of barium sulfate The mass ratio of acid barium is 1:0.5,1:1,1:1.5,1:2,1:2.5,1:3 etc..It is arranged such the ratio of two kinds of compositions in lithopone It is easy to make lithopone preferably play a role.

Specifically, the mesh number of dicalcium powder is 340-450 mesh, and the mesh number of sierozem power is 340-450 mesh, and diatomaceous mesh number is 900-1100 mesh, kaolinic mesh number is 750-850 mesh, and the mesh number of wollastonite is 750-850 mesh, and the mesh number of light calcium carbonate powder is 340- 450 mesh.For example, the mesh number of dicalcium powder can be 340,350,360,370,380,390,400,410,420,430,440, 450 etc., the mesh number of sierozem power can be 340,350,360,370,380,390,400,410,420,430,440,450 etc., silicon The mesh number of diatomaceous earth can be 900,930,950,970,1000,1050,1100 etc., kaolinic mesh number can be 750,770, 790,820,850 etc., the mesh number of wollastonite can be 750,770,790,820,850 etc., the mesh number of light calcium carbonate powder can be 340, 350,360,370,380,390,400,410,420,430,440,450 etc..Visible, the mesh number of above-mentioned each component is relatively big, i.e. goes up The powder stating each component is thinner, and this is easy to form smooth, the coating of high intensity, good toughness, and can improve the present invention The water-wash resistance of coating that embodiment provides, and the harmful gas such as the diatomaceous specific surface area of fine-powdered is big, PARA FORMALDEHYDE PRILLS(91,95) or The absorbability of person's abnormal flavour is strong, it is also possible to more preferably adjust indoor humidity, beneficially health.

Second aspect, embodiments provides the preparation method of above-mentioned coating, and its preparation method comprises the following steps: According to the mass percent of component each in coating, by dicalcium powder, sierozem power, kieselguhr, anionic additive, antibacterial, Talcum Powder, Kaolin, wollastonite, surfactant, redispersible latex powder, light calcium carbonate powder, lithopone join in blender and stir 16-29min, obtains negative oxygen ion dry powder paint.Wherein, mixing time can be 16min, 17min, 19min, 21min, 23min, 25min, 27min, 29min etc..

The technique of the preparation method of the coating that the embodiment of the present invention provides is simple, time-consumingly few, is suitable for large-scale production and pushes away Wide use.

Hereinafter will be further described through the present invention by specific embodiment.

In specific examples below, the unreceipted condition person of involved operation, all according to normal condition or manufacturer The condition of suggestion is carried out.Raw materials used unreceipted production firm and specification person be can by city available from conventional products.

Embodiment 1

Present embodiments provide a kind of negative oxygen ion dry powder paint, by mixing the component of following mass percent: ash calcium Powder 27%, kieselguhr 7.5%, anionic additive 4.8%, antibacterial 2.8%, Pulvis Talci 0.4%, Kaolin 0.4%, silicon ash Stone 0.2%, dodecyl sodium sulfate 0.09%, sbr powder 0.9%, light calcium carbonate powder 1.4%, lithopone 0.26%, surplus are attached most importance to Calcium powder, and add it to blender stirs 17min, i.e. can get the present embodiment desired negative oxygen ion dry powder paint, should The average mesh number of negative oxygen ion dry powder paint is 500 mesh.

Wherein, anionic additive includes the component of following mass percent: aluminium oxide 32%, boron oxide 8%, titanium dioxide Titanium 3%, ferrum oxide 1.2%, ferrous oxide 0.8%, magnesium oxide 0.3%, lithium oxide 0.3%, manganese monoxide 0.3%, surplus are Silicon dioxide.Silver zinc inorganic complex antimicrobials includes the component of following mass percent: aluminium oxide 30%, silver nitrate 7%, nitric acid Zinc 8%, zeolite 8.1%, ferrum oxide 1.2%, ferrous oxide 0.52%, magnesium oxide 0.3%, manganese monoxide 0.22%, surplus are Silicon dioxide.In lithopone, zinc sulfide is 1:0.5 with the mass ratio of barium sulfate.

Embodiment 2

Present embodiments provide a kind of negative oxygen ion dry powder paint, by mixing the component of following mass percent: ash calcium Powder 29%, kieselguhr 7.7%, anionic additive 4.8%, antibacterial 3.0%, Pulvis Talci 0.5%, Kaolin 0.5%, silicon ash Stone 0.3%, hydroxypropyl methyl cellulose and the mixture 0.10% of sodium carboxymethyl cellulose, sbr powder and ethyl vinyl acetate second The mixture 1.0% of alkene copolymer rubber powder, light calcium carbonate powder 1.5%, lithopone 0.28%, surplus are dicalcium powder, and add it to Blender stirs 19min, i.e. can get the present embodiment desired negative oxygen ion dry powder paint, this negative oxygen ion dry powder paint Average mesh number is 540 mesh.

Wherein, anionic additive includes the component of following mass percent: aluminium oxide 35%, boron oxide 9%, titanium dioxide Titanium 3%, ferrum oxide 1.5%, ferrous oxide 1.1%, magnesium oxide 0.3%, lithium oxide 0.3%, manganese monoxide 0.3%, surplus are Silicon dioxide.Silver zinc inorganic complex antimicrobials includes the component of following mass percent: aluminium oxide 31%, silver nitrate 8%, nitric acid Zinc 8%, zeolite 8.4%, ferrum oxide 1.4%, ferrous oxide 0.62%, magnesium oxide 0.32%, manganese monoxide 0.25%, surplus are Silicon dioxide.Hydroxypropyl methyl cellulose is 1:1 with the mass ratio of sodium carboxymethyl cellulose, sbr powder and ethyl vinyl acetate second The mass ratio of alkene copolymer rubber powder is 1:1, and in lithopone, zinc sulfide is 1:1 with the mass ratio of barium sulfate.

Embodiment 3

Present embodiments provide a kind of negative oxygen ion dry powder paint, by mixing the component of following mass percent: ash calcium Powder 30%, kieselguhr 7.8%, anionic additive 5%, antibacterial 3%, Pulvis Talci 0.5%, Kaolin 0.5%, wollastonite 0.3%, sodium polyacrylate 0.1%, sbr powder and the mixture 1% of ethylene-vinyl acetate copolymer rubber powder, light calcium carbonate powder 1.5%, lithopone 0.3%, surplus are dicalcium powder, and add it to stir in blender 20min, i.e. can get the present embodiment Desired negative oxygen ion dry powder paint, the average mesh number of this negative oxygen ion dry powder paint is 580 mesh.

Wherein, anionic additive includes the component of following mass percent: silicon dioxide 46%, aluminium oxide 37%, oxygen Change boron 11%, titanium dioxide 3%, ferrum oxide 1.4%, ferrous oxide 0.8%, magnesium oxide 0.4%, lithium oxide 0.2%, oxidation Manganese 0.2%.Silver zinc inorganic complex antimicrobials includes the component of following mass percent: silicon dioxide 43%, aluminium oxide 31%, nitre Acid zinc 7.5%, silver nitrate 7.5%, zeolite 8.2%, ferrum oxide 1.4%, ferrous oxide 0.8%, magnesium oxide 0.4%, oxidation Manganese 0.2%.Sbr powder is 1:2 with the mass ratio of the mixture of ethylene-vinyl acetate copolymer rubber powder, zinc sulfide in lithopone It is 1:1.2 with the mass ratio of barium sulfate.

Embodiment 4

Present embodiments provide a kind of negative oxygen ion dry powder paint, by mixing the component of following mass percent: ash calcium Powder 32%, kieselguhr 8%, anionic additive 5.1%, antibacterial 3.1%, Pulvis Talci 0.5%, Kaolin 0.4%, wollastonite 0.3%, propyl methocel and sodium polyacrylate and the mixture 0.09% of dodecyl sodium sulfate, ethylene-vinyl chloride-moon Laurate terpolymer rubber powder 0.9%, light calcium carbonate powder 1.4%, lithopone 0.26%, surplus are dicalcium powder, and are added Entering in blender stirring 25min, i.e. can get the present embodiment desired negative oxygen ion dry powder paint, this negative oxygen ion dry powder is coated with The average mesh number of material is 480 mesh.

Wherein, anionic additive includes the component of following mass percent: aluminium oxide 36%, boron oxide 9%, titanium dioxide Titanium 3%, ferrum oxide 1.6%, ferrous oxide 1.2%, magnesium oxide 0.4%, lithium oxide 0.3%, manganese monoxide 0.3%, surplus are Silicon dioxide.Silver zinc inorganic complex antimicrobials includes the component of following mass percent: aluminium oxide 32%, silver nitrate 11%, nitre Acid zinc 8%, zeolite 8.4%, ferrum oxide 1.4%, ferrous oxide 0.72%, magnesium oxide 0.3%, manganese monoxide 0.22%, surplus For silicon dioxide.Propyl methocel, sodium polyacrylate, the mass ratio of dodecyl sodium sulfate are 1:1:1, sulfur in lithopone The mass ratio changing zinc and barium sulfate is 1:1.5.

Application Example 1

The negative oxygen ion dry powder paint that embodiment 1-4 is provided by this application embodiment by the following method absorbs formaldehyde gas Performance test: the negative oxygen ion dry powder paint sampling respectively embodiment 1-4 provided, and respectively corresponding negative oxygen from Adding in sub-dry powder paint sample with its mass ratio is the deionized water of 6:4, stirs 22min, obtains corresponding water based paint, will It is respectively coated with 1m²4 planks on, then 4 planks are individually placed to 4 seal boxs of formaldehyde containing same concentrations In, and the empty plank of a uncoated coating is put in the 5th seal box with same concentrations formaldehyde as blank, After 96h, detect respectively according to the method that " GBT18204.26-2000 public place method for determining formaldehyde in air " standard provides The concentration of formaldehyde in five different seal boxs, the test result of the absorbance of concrete formaldehyde is as shown in table 1:

Table 1

Negative oxygen ion dry powder paint	Clearance/the % of formaldehyde
		Embodiment 1	99.1
Embodiment 2	99.6
		Embodiment 3	99.8
Embodiment 4	99.2
		Blank	22.1

Can be drawn by table 1, the negative oxygen ion dry powder paint that embodiment of the present invention 1-4 provides can be efficiently absorbed formaldehyde Gas, it is seen then that the negative oxygen ion dry powder paint that the embodiment of the present invention provides can be efficiently absorbed formaldehyde, VOC etc. 300 kinds and be harmful to Material, has the ability purifying air of excellence.

Application Example 2

The anion amount of inducing of the negative oxygen ion dry powder paint that embodiment 1-4 is provided by this application embodiment is tested: This application embodiment uses the method for Application Example 1, obtains 4 and is applied the negative oxygen that embodiment of the present invention 1-4 provides respectively The plank sample of ion dry powder paint, and use the method that " HG/T4109-2009 anion function coating " standard provides, to reality Executing example 1-4 to carry out anion and induce measurement examination, concrete test data are as shown in table 2:

Table 2

Negative oxygen ion dry powder paint	The anion amount of inducing, individual/s cm2
		Embodiment 1	1023
Embodiment 2	1061
		Embodiment 3	1103
Embodiment 4	1034

Can be drawn by table 2, embodiment of the present invention 1-4 provide negative oxygen ion dry powder paint can discharge substantial amounts of bear from Son, it is seen then that the ability of the negative oxygen ion dry powder paint anion releasing that the embodiment of the present invention provides is strong, and then purify the energy of air Power is strong, is of value to health.

Application Example 3

The sterilizing ability of the negative oxygen ion dry powder paint that embodiment 1-4 is provided by this application embodiment is tested: will be real It is on the plank of 1mm that the negative oxygen ion dry powder paint that executing example 1-4 provides is respectively coated on 4 thickness, then by the wood after coating Plate is cut into 10 × 10mm pat, uses shaking method, and corresponding pat being put into 8 respectively and is respectively provided with concentration is 2 ×10⁵The escherichia coli of CFU/mmL and staphylococcus aureus rock in bottle, in the condition that shaking speed is 250 revs/min Under, to rock 4 hours, then bacterial solution is tested, concrete test result is as shown in table 3 below:

Table 3

Negative oxygen ion dry powder paint	Colibacillary sterilizing rate/%	Sterilizing rate/the % of staphylococcus aureus
			Embodiment 1	99.1	98.6
Embodiment 2	99.8	99.5
			Embodiment 3	99.8	99.9
Embodiment 4	99.4	98.7

Can be drawn by table 3, the sterilizing rate of the negative oxygen ion dry powder paint that embodiment of the present invention 1-4 provides is high, it is seen then that this The antibacterial ability of the negative oxygen ion dry powder paint that inventive embodiments provides is strong.

Application Example 4

The water-wash resistance of the negative oxygen ion dry powder paint that embodiment 1-4 is provided by this application embodiment is tested: will be real The negative oxygen ion dry powder paint that executing example 1-4 provides is respectively coated on 4 1m²On plank, and the thickness of coating is 1mm, and room temperature is dried in the air Dry, the most respectively it is carried out scrub washing test, and observe the pattern of coating, concrete test result is as shown in table 4 below:

Table 4

Negative oxygen ion dry powder paint	Clean 500 times	Clean 800 times	Clean 1200 times	Clean 1500 times
					Embodiment 1	Smooth	Smooth	Smooth, not bottom drain	Smooth, not bottom drain
Embodiment 2	Smooth	Smooth	Smooth, not bottom drain	Smooth, not bottom drain
					Embodiment 3	Smooth	Smooth	Smooth, not bottom drain	Smooth, not bottom drain
Embodiment 4	Smooth	Smooth	Smooth, not bottom drain	Smooth, not bottom drain

Can be drawn by table 4, the water-wash resistance of the negative oxygen ion dry powder paint that embodiment of the present invention 1-4 provides is good, it is seen then that The water-wash resistance of the negative oxygen ion dry powder paint that the embodiment of the present invention provides is good, and service life is long.

From Application Example 1-4, the negative oxygen ion dry powder paint that the embodiment of the present invention provides has efficient absorption first It is excellent that 300 kinds of harmful substances such as aldehyde, VOC, the most enduringly anion releasing, anti-mildew become and sterilizing ability is strong, water-wash resistance is good etc. The health of point, it is possible to be substantially improved indoor environment, beneficially human body, can promote the use of.

The foregoing is only presently preferred embodiments of the present invention, not in order to limit the scope of the invention, all at this Within bright spirit and principle, any modification, equivalent substitution and improvement etc. made, should be included in protection scope of the present invention Within.

Claims (10)

1. a negative oxygen ion dry powder paint, it is characterised in that described coating includes the component of following mass percent: sierozem power 25%-35%, kieselguhr 6.2%-8.0%, anionic additive 4.5%-6.5%, antibacterial 1.5%-5.0%, Pulvis Talci 0.15%-0.80%, Kaolin 0.15%-0.80%, wollastonite 0.15%-0.50%, surfactant 0.05%- 0.15%, redispersible latex powder 0.55%-1.5%, light calcium carbonate powder 1.2%-1.8%, lithopone 0.15%-0.50%, remaining Amount is dicalcium powder.

Coating the most according to claim 1, it is characterised in that described coating includes the component of following mass percent: ash Calcium powder 27%-32%, kieselguhr 7.5%-8.0%, anionic additive 4.8%-5.2%, antibacterial 2.8%-3.4%, cunning Stone powder 0.4%-0.6%, Kaolin 0.4%-0.6%, wollastonite 0.2%-0.4%, surfactant 0.08%-0.12%, Redispersible latex powder 0.8%-1.2%, light calcium carbonate powder 1.4%-1.6%, lithopone 0.26%-0.34%, surplus are triple superphosphate Powder.

Coating the most according to claim 1, it is characterised in that described anionic additive includes following mass percent Component: aluminium oxide 31%-41%, boron oxide 7%-13%, titanium dioxide 3%-6%, ferrum oxide 1.1%-1.7%, oxidation Asia Ferrum 0.7%-1.2%, magnesium oxide 0.1%-0.4%, lithium oxide 0.1%-0.3%, manganese monoxide 0.1%-0.3%, surplus are Silicon dioxide.

Coating the most according to claim 1, it is characterised in that described antibacterial is silver zinc inorganic complex antimicrobials, copper system Inorganic complex antimicrobials or titanium system inorganic complex antimicrobials.

Coating the most according to claim 4, it is characterised in that described silver zinc inorganic complex antimicrobials includes following quality hundred The component of proportion by subtraction: aluminium oxide 29%-33%, silver nitrate 7%-11%, zinc nitrate 7%-11%, zeolite 7.8%-8.8%, oxidation Ferrum 1.1%-1.6%, ferrous oxide 0.42%-1.1%, magnesium oxide 0.25%-0.4%, manganese monoxide 0.12%-0.3%, remaining Amount is silicon dioxide.

Coating the most according to claim 1, it is characterised in that described redispersible latex powder selected from acrylic acid rubber powder, Sbr powder, ethylene-vinyl acetate copolymer rubber powder, SB rubber powder, vinylacetate-ethylene-methyl At least one in methyl acrylate copolymer rubber powder, ethylene-vinyl chloride-vinyl laurate terpolymer rubber powder.

Coating the most according to claim 1, it is characterised in that described surfactant is selected from sodium carboxymethyl cellulose, hydroxyl In ethyl cellulose, hydroxypropyl methyl cellulose, sodium polyacrylate, dodecyl sodium sulfate, alkylphenol polyoxyethylene extremely Few one.

Coating the most according to claim 1, it is characterised in that described lithopone is the mixture of zinc sulfide and barium sulfate, Described zinc sulfide is 1:0.5-3 with the mass ratio of described barium sulfate.

Coating the most according to claim 1, it is characterised in that the mesh number of described dicalcium powder is 340-450 mesh, described ash calcium The mesh number of powder is 340-450 mesh, and described diatomaceous mesh number is 900-1100 mesh, and described kaolinic mesh number is 750-850 mesh, The mesh number of described wollastonite is 750-850 mesh, and the mesh number of described light calcium carbonate powder is 340-450 mesh.

10. the preparation method of the coating described in any one of claim 1-9, it is characterised in that described preparation method includes following Step:

According to the mass percent of component each in coating, by dicalcium powder, sierozem power, kieselguhr, anionic additive, antibacterial, Pulvis Talci, Kaolin, wollastonite, surfactant, redispersible latex powder, light calcium carbonate powder, lithopone join in blender Stirring 16-29min, obtains described negative oxygen ion dry powder paint.