CN105482777A - Negative ion composite powder for building material - Google Patents

Abstract

The invention discloses negative ion composite powder for a building material. The negative ion composite powder is prepared from, by mass, 30-80 parts of yuksporite powder, 10-30 parts of schorl powder, 1-8 parts of sodium hexametaphosphate, 1-5 parts of zinc oxide, 0-30 parts of rare earth, 1-30 parts of zeolite powder, 1-8 parts of water-borne acrylic acid and 1-8 parts of monazite powder. According to the negative ion composite powder for the building material, the preparation technology is simple, the raw materials are low in cost, a negative ion plate has the durability, the high efficiency and the environmental protection property, the prepared negative ion plate can efficiently and stably release negative ions at 2200-4000/s.cm<2> and can purify air and remove indoor foreign smell and harmful gas, and the negative ion composite powder is an environment-friendly negative ion additive.

Description

A kind of negative ion composite powder being applicable to material of construction

Technical field

The present invention relates to a kind of composite powder, be specifically related to a kind of negative ion composite powder being applicable to material of construction.

Background technology

Living environment constantly receives the concern of people to healthy impact, people pursue indoor decorating luxurious, attractive in appearance while, also paying close attention to indoor pollution affects HUMAN HEALTH, the feature of environmental protection of construction timber, and on the impact that HUMAN HEALTH produces.Therefore, various wholesome novel building functional material arises at the historic moment.

Anion material has one of the multifunctional novel such as environmental protection, health material representative as one, is widely used in the fields such as textiles, pottery, material of construction.From Aschkinass and Caspan affirmative negative aeroion in 1902, there is biological meaning, since Soviet Union scholar in 1903 has delivered and has utilized negative aeroion to eliminate the paper of germ, scientific research personnel has carried out lot of experiments in succession, has affirmed the value of negative aeroion further.

Negative oxygen ion concentration in room, city is 100 every cubic centimetre, concentration in building office is even low to 40 ~ 50 every cubic centimetre, and the standard that the World Health Organization delimit, the negative oxygen ion content of fresh air is be not less than 1000 ~ 1500 in every cc of air, so often easily bring out the discomforts such as headache and insomnia such environmental work.The white-collar job of a lot of cities feels to feel dizzy after one day, just and air inadequate " nutrition " have certain relation.And forest and waterfall area, " air VITAMIN " content in high mountain seashore and park are very abundant, 10000 ~ 20000 every cubic centimetre, 5000 ~ 10000 and 400 ~ 1000 can be reached respectively.Negative oxygen ion can promote human metabolism, flu-prevention, enhancing body resistance against diseases.

CN103805134A Chinese patent discloses a kind of novel negative ion additive, and the shortcoming of products obtained therefrom is that the negative ion concentration produced is not high, effect persistence is poor.

The invention provides a kind of negative ion composite powder being applicable to material of construction, this negative ion composite powder have lastingly, high efficiency, and manufacture craft is simple, the prices of raw and semifnished materials are cheap, is applicable to scale operation.

Summary of the invention

The invention provides a kind of negative ion composite powder being applicable to material of construction, can the anion releasing of efficient stable, can purify air, eliminate foreign flavor indoors and various obnoxious flavour, be a kind of new and effective stable negative ionic additive.

The present invention seeks to realize by the following technical solutions:

A kind of negative ion composite powder, according to mass fraction meter, described composite powder is obtained by following component: uxporite powder 30-80 part; Schorl powder 10-30 part; Sodium hexametaphosphate 99 1-8 part; Zinc oxide 1-5 part; Rare earth 0-30 part; Zeolite powder 1-30 part; Water soluble acrylic acid 1-8 part; Solitary stone flour 1-8 part; Poly-ether of cellulose 1-3 part.

First preferred version of negative ion composite powder, according to mass fraction meter, described composite powder is obtained by following component: uxporite powder 40-60 part; Schorl powder 15-25 part; Sodium hexametaphosphate 99 3-6 part; Zinc oxide 2-4 part; Rare earth 5-20 part; Zeolite powder 5-20 part; Water soluble acrylic acid 3-5 part; Solitary stone flour 2-6 part; Poly-ether of cellulose 2-3 part.

Second preferred version of negative ion composite powder, according to mass fraction meter, described composite powder is obtained by following component: 50 parts, uxporite powder; 15 parts, schorl powder; Sodium hexametaphosphate 99 4 parts; 3 parts, zinc oxide; Rare earth 16 parts; Zeolite powder 15 parts; Water soluble acrylic acid 4 parts; Solitary stone flour 5 parts; Poly-ether of cellulose 2 parts.

3rd preferred version of negative ion composite powder, described uxporite powder and schorl powder are through aqueous acrylamide low-kappa number.

4th preferred version of negative ion composite powder, described uxporite powder footpath is 10 ~ 30 μm, and described schorl powder footpath is 15-40 μm.

5th preferred version of negative ion composite powder, described pre-treatment comprises: by described uxporite powder and the mixing of schorl powder, then with the water soluble acrylic acid mixed configuration aqueous solution, water-bath 1 hour at 60 ~ 90 DEG C, filters, dry, breaks up.

6th preferred version of negative ion composite powder, described composite powder is mixed by dry powder blender and obtains.

Compared with immediate prior art, technical scheme provided by the invention has following excellent effect:

(1) negative ion composite powder provided by the invention, and manufacture craft is simple, the prices of raw and semifnished materials are cheap, is applicable to scale operation;

(2) negative ion composite powder provided by the invention has persistence, high efficiency, the feature of environmental protection;

(3) the negative ion plate prepared of negative ion composite powder provided by the invention can anion releasing 2000 ~ 3800/scm of efficient stable ², can purify air, eliminate foreign flavor indoors and various obnoxious flavour.

Embodiment

Below in conjunction with embodiment, be clearly and completely described technical scheme of the present invention, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

Case study on implementation 1:

Take 30 parts, the uxporite powder that particle diameter is 30 μm, particle diameter is 10 parts, the schorl powder of 40 μm, water soluble acrylic acid 1 part, adds the water-bath 0.5 hour at 60 DEG C of appropriate water, filters, dry, break up, take Sodium hexametaphosphate 99 1 part, 1 part, zinc oxide, rare earth 30 parts, zeolite powder 30 parts, solitary stone flour 8 parts, poly-ether of cellulose 1 part, mixed by dry powder blender, namely can obtain negative oxygen ion composite powder.

Case study on implementation 2:

Take 80 parts, the uxporite powder that particle diameter is 20 μm, particle diameter is 30 parts, the schorl powder of 25 μm, water soluble acrylic acid 8 parts, adds the water-bath 1 hour at 90 DEG C of appropriate water, filters, dry, break up, take Sodium hexametaphosphate 99 8 parts, 5 parts, zinc oxide, zeolite powder 1 part, solitary stone flour 1 part, poly-ether of cellulose 3 parts, mixed by dry powder blender, namely can obtain negative oxygen ion composite powder.

Case study on implementation 3:

Take 40 parts, the uxporite powder that particle diameter is 10 μm, particle diameter is 20 parts, the schorl powder of 15 μm, water soluble acrylic acid 3 parts, adds the water-bath 1 hour at 90 DEG C of appropriate water, filters, dry, break up, take Sodium hexametaphosphate 99 3 parts, 2 parts, zinc oxide, rare earth 5 parts, zeolite powder 5 parts, solitary stone flour 2 parts, poly-ether of cellulose 2 parts, mixed by dry powder blender, namely can obtain negative oxygen ion composite powder.

Case study on implementation 4:

Take 60 parts, the uxporite powder that particle diameter is 20 μm, particle diameter is 15 parts, the schorl powder of 25 μm, water soluble acrylic acid 5 parts, adds the water-bath 1 hour at 90 DEG C of appropriate water, filters, dry, break up, take Sodium hexametaphosphate 99 6 parts, 4 parts, zinc oxide, rare earth 20 parts, zeolite powder 20 parts, solitary stone flour 6 parts, poly-ether of cellulose 2 parts, mixed by dry powder blender, namely can obtain negative oxygen ion composite powder.

Case study on implementation 5:

Take 50 parts, the uxporite powder that particle diameter is 10 μm, particle diameter is 25 parts, the schorl powder of 20 μm, water soluble acrylic acid 4 parts, adds the water-bath 1 hour at 90 DEG C of appropriate water, filters, dry, break up, take Sodium hexametaphosphate 99 4 parts, 3 parts, zinc oxide, rare earth 16 parts, zeolite powder 15 parts, solitary stone flour 5 parts, poly-ether of cellulose 2 parts, mixed by dry powder blender, namely can obtain negative oxygen ion composite powder.

Case study on implementation 6:

Take 40 parts, the uxporite powder that particle diameter is 10 μm, particle diameter is 20 parts, the schorl powder of 15 μm, water soluble acrylic acid 3 parts, adds the water-bath 1 hour at 90 DEG C of appropriate water, filters, dry, break up, take Sodium hexametaphosphate 99 3 parts, 2 parts, zinc oxide, rare earth 5 parts, 5 parts, mordenite powder, solitary stone flour 6 parts, poly-ether of cellulose 2 parts, mixed by dry powder blender, namely can obtain negative oxygen ion composite powder.

With gained negative oxygen ion composite powder in the various embodiments described above for raw material, obtained negative ion plate, by " JCT2040-2010 anion function indoor decoration material " standard, the negative aeroion carried out induces and measures examination, the results are shown in following table: wherein with the obtained negative ion composite powder of component disclosed in prior art CN103805134A as a control group, not add the negative ion amount of negative ion powder with detecting as background.

The amount of table 1 negative ion plate anion releasing

Above embodiment is only in order to illustrate that technical scheme of the present invention is not intended to limit; those of ordinary skill in the field are to be understood that; can modify to the specific embodiment of the present invention with reference to above-described embodiment or equivalent to replace, these do not depart from any amendment of spirit and scope of the invention or equivalently to replace within the claims that all awaits the reply in application.

Claims (7)

1. a negative ion composite powder, is characterized in that, according to mass fraction meter, described composite powder is obtained by following component: uxporite powder 30-80 part; Schorl powder 10-30 part; Sodium hexametaphosphate 99 1-8 part; Zinc oxide 1-5 part; Rare earth 0-30 part; Zeolite powder 1-30 part; Water soluble acrylic acid 1-8 part; Solitary stone flour 1-8 part; Poly-ether of cellulose 1-3 part.

2. a kind of negative ion composite powder according to claim 1, is characterized in that, according to mass fraction meter, described composite powder is obtained by following component: uxporite powder 40-60 part; Schorl powder 15-25 part; Sodium hexametaphosphate 99 3-6 part; Zinc oxide 2-4 part; Rare earth 5-20 part; Zeolite powder 5-20 part; Water soluble acrylic acid 3-5 part; Solitary stone flour 2-6 part; Poly-ether of cellulose 2-3 part.

3. a kind of negative ion composite powder according to claim 1, is characterized in that, according to mass fraction meter, described composite powder is obtained by following component: 50 parts, uxporite powder; 20 parts, schorl powder; Sodium hexametaphosphate 99 4 parts; 3 parts, zinc oxide; Rare earth 16 parts; Zeolite powder 15 parts; Water soluble acrylic acid 4 parts; Solitary stone flour 5 parts; Poly-ether of cellulose 2 parts.

4., according to the arbitrary described a kind of negative ion composite powder of claim 1-3, it is characterized in that, described uxporite powder and schorl powder are through aqueous acrylamide low-kappa number.

5., according to the arbitrary described a kind of negative ion composite powder of claim 1-3, it is characterized in that, described uxporite powder footpath is 10 ~ 30 μm, and described schorl powder footpath is 15-40 μm.

6. a kind of negative ion composite powder according to claim 4, it is characterized in that, described pre-treatment comprises: by described uxporite powder and the mixing of schorl powder, then with the water soluble acrylic acid mixed configuration aqueous solution, water-bath 1 hour at 60 ~ 90 DEG C, filters, drying, breaks up.

7. a kind of negative ion composite powder according to claim 1, it is characterized in that, described composite powder is mixed by dry powder blender and obtains.