CN1310209A

CN1310209A - Health building paint intermediate and its preparation

Info

Publication number: CN1310209A
Application number: CN 01105370
Authority: CN
Inventors: 王克承
Original assignee: SHANGHAI SHUOHUA HI-TECH INDUSTRY Co Ltd
Current assignee: SHANGHAI SHUOHUA HI-TECH INDUSTRY Co Ltd
Priority date: 2001-02-20
Filing date: 2001-02-20
Publication date: 2001-08-29

Abstract

Negative ion ruby fine powder as main material as well as fine far infrared powder, fine antiseptic powder, wave absorbing ferrite, antistatic conducting fine powder, silver containing ionic catalyst, dispersant and non-ionic surfactant are produced into the health building paint intermediate through the technological process of crushing grinding, drying, separation, etc. Compared with available technology, the product of the present invention has small size and greater negative ion releasing amount.

Description

A kind of health building paint intermediate and preparation method thereof

The present invention relates to fine chemistry industry material technology field, relate in particular to a kind of health building paint intermediate and preparation method thereof.

Existing coating intermediate generally is based on the negative ion jewel on the market, fineness in 1～850 μ scope, the diameter of particle non-constant width that distributes, the user in use, metope has coarse particles and pore to occur.Simultaneously, prove according to scientific experiment, when the anion powder particle diameter during at d50＜0.5 μ negative ion could discharge substantially, and currently available products can't reach this fineness, therefore, it is very few that its negative ion discharges, and influences result of use.

Purpose of the present invention is exactly to provide health building paint intermediate that a kind of granularity is little, the negative ion burst size is big and preparation method thereof for the defective that overcomes above-mentioned prior art existence.

Purpose of the present invention can be achieved through the following technical solutions: a kind of health building paint intermediate is characterized in that it is the powder of being made for raw material by following prescription (parts by weight):

Negative ion jewel micro mist 100

Far infrared micro mist 2～2.5

Antibiotic micro mist 1～1.5

Inhale ripple ferrite 0.5～0.85

Antistatic conductive micro mist 0.3～0.75

Argentiferous ionic catalyst 0.5～0.75

Dispersion agent 0.3～0.75

Nonionogenic tenside 0.25～0.75

Described negative ion jewel micro mist is selected from tourmalinite, its Chemical Composition is the silicate that contains B, Al, Si, Mg, Mn, Zn, Ti, described far infrared micro mist is selected from ZrO, described antibiotic micro mist is selected from chitin, described suction ripple ferrite is selected from carbonyl iron dust, and described antistatic conductive micro mist is selected from SrCO ₃, described argentiferous ionic catalyst is selected from AgO, and described dispersion agent is selected from trisodium phosphate, and described nonionogenic tenside is selected from the polyoxyethylene aliphatic ether.

A kind of health building paint intermediates preparation, be characterized in, it adopts following processing step: at first the raw material of each component is entered jaw crusher respectively and carry out fragmentation, carry out powerful magnetic separation by elevator conveyer then, to remove free Fe, impurity such as Ni, enter the high speed centrifugation mill again, the powder mixture that obtains enters air classifier, enter the centrifugal discharge device through speed control by frequency variation fractionated fine powder body, air-flow enters efficient bag separator, the service temperature of above-mentioned technological process is less than 50 ℃, the powder that comes out from centrifugal discharge device and bag separator bottom enters agitation vat, grind repeatedly through entering again after stirring in the efficient stirring mill, behind the powder ultramicronising, enter the spray tower drying, powder after drying enters cloth bag separator, powder after the separation enters the depolymerization of head-on collision type airflow milling, carry out surface active simultaneously, the working pressure of this airflow milling is 1.0～1.2MPa, temperature is 1 8～22 ℃, enter in the loading head again and collect, reach d90≤φ 1.2 μ thereby obtain fineness, uniformity coefficient reaches 100,000/ powder; To prepare burden by following prescription (parts by weight) by the powder that aforesaid method obtains: negative ion jewel micro mist 100, far infrared micro mist 2～2.5, antibiotic micro mist 1～1.5, suction ripple ferrite 0.5～0.85, antistatic conductive micro mist 0.3～0.75, argentiferous ionic catalyst 0.5～0.75, dispersion agent 0.3～0.75, nonionogenic tenside 0.25～0.75 obtain the health building paint intermediate product.

Compared with prior art, product granularity of the present invention is meticulousr, the negative ion concentration that is discharged is higher, product of the present invention detects about metrology and measurement department and the retrieval of scientific and technological Cha Xin unit through country, prove that its fineness reaches d90≤φ 1 μ, purity reaches more than 99.99%, and the negative ion release concentration reaches the level of 24000 every square centimeter of per minutes.Because the granularity of product of the present invention is little, narrow diameter distribution, so physics of powder, chemical property has produced delicate variation, light,, heat, magnetic, change etc. all has exceptional function, in the particularly this macromole crystalline network, contain electronics one hole several to more than, after the temperature difference occurs, the molecular lattice vibration makes its free-water on every side and the crystal water generation ionisation effect of macromole itself, and negative charge becomes the gas phase negative ion immediately, bump with ion on every side, displacement is decomposed, even spread and sink in and go out, it can effectively solve the occurring in nature free radical and fail the bonded pollution substance, as free formaldehyde, benzene, phenol, SO ₂, hazardous and noxious substances such as NOx innoxious.

Therefore product of the present invention can also produce the functions such as (4～14 μ m) far infrared microwave that help microcirculation in human body owing to comprise some function micro mists.After the user is on probation, show, product of the present invention has ten big advantages: improve the respiratory system function of human body, strengthen the oxygen absorbed of lung, increased the ability of discharging organic exhaust gas, reduce hypertension, improve myocardial function, improve sleep state, rouse oneself the nervus centralis network and increase work efficiency, significant analgesia role, activate the human body enzyme system, promote human body metabolism, body immunizing power.

Fig. 1 is a process flow sheet of the present invention.

Below in conjunction with accompanying drawing, the invention will be further described.

As shown in Figure 1, processing step of the present invention is as follows: raw material tourmalinite 1000Kg, the ZrO 25Kg, chitin 15Kg, carbonyl iron dust 8.5Kg, the SrCO that at first get each component ₃7.5Kg, AgO ₅Kg, trisodium phosphate 5Kg, polyoxyethylene aliphatic ether 2.5Kg, enter jaw crusher 1 respectively and carry out fragmentation, wash by elevator conveyer 2 then, oven dry, powerful magnetic separation, to remove free Fe, impurity such as Ni, enter high speed centrifugation mill 3 again, the powder mixture that obtains enters air classifier 4, enter centrifugal discharge device 5 through speed control by frequency variation fractionated powder, air-flow enters efficient bag separator 8, the top of this bag separator 8 is provided with centrifugal high pressure machine 9, the service temperature of above-mentioned technological process is controlled at 10～50 ℃, the powder that comes out from the bottom 7 of centrifugal discharge device 5 bottoms 6 and bag separator 8 enters agitation vat 11, powder grinds repeatedly through entering after stirring in the efficient stirring mill 10 again, behind the powder ultramicronising, squeeze into spray tower 13 and carry out drying with high-pressure pump 12, this spray tower adopts high temperature gas flow pump 15 that air flow source is provided, powder after drying enters cloth bag separator 14, powder after the separation enters 16 depolymerization of head-on collision type airflow milling and activation, this airflow milling provides source of the gas by pneumatic pump 17, the working pressure of source of the gas is 1.0～1.2MPa, temperature is 18～22 ℃, enter again in the loading head 18 and collect, reach d90≤φ 1.2 μ thereby obtain fineness, uniformity coefficient reaches 100,000/ powder; The powder of the each component that will obtain by aforesaid method is mixed, and obtains the health building paint intermediate product.In addition, the method that product of the present invention can also be pulverized by being mixed earlier again obtains, and its mixed ratio and processing step are identical with aforesaid method with parameter.

Claims

1. a health building paint intermediate is characterized in that, it is the powder of being made for raw material by following prescription (parts by weight):

Negative ion jewel micro mist 100

Far infrared micro mist 2～2.5

Antibiotic micro mist 1～1.5

Inhale ripple ferrite 0.5～0.85

Antistatic conductive micro mist 0.3～0.75

Argentiferous ionic catalyst 0.5～0.75

Dispersion agent 0.3～0.75

Nonionogenic tenside 0.25～0.75

2. a kind of health building paint intermediate according to claim 1, it is characterized in that, described negative ion jewel micro mist is selected from tourmalinite, its Chemical Composition is the silicate that contains B, Al, Si, Mg, Mn, Zn, Ti, described far infrared micro mist is selected from ZrO, described antibiotic micro mist is selected from chitin, and described suction ripple ferrite is selected from carbonyl iron dust, and described antistatic conductive micro mist is selected from SrCO ₃, described argentiferous ionic catalyst is selected from AgO, and described dispersion agent is selected from trisodium phosphate, and described nonionogenic tenside is selected from the polyoxyethylene aliphatic ether.

3. health building paint intermediates preparation, it is characterized in that, it adopts following processing step: at first the raw material of each component is entered jaw crusher respectively and carry out fragmentation, carry out powerful magnetic separation by elevator conveyer then, to remove free Fe, impurity such as Ni, enter the high speed centrifugation mill again, the powder mixture that obtains enters air classifier, enter the centrifugal discharge device through speed control by frequency variation fractionated fine powder body, air-flow enters efficient bag separator, the service temperature of above-mentioned technological process is less than 50 ℃, the powder that comes out from centrifugal discharge device and bag separator bottom enters agitation vat, grind repeatedly through entering again after stirring in the efficient stirring mill, behind the powder ultramicronising, enter the spray tower drying, powder after drying enters cloth bag separator, powder after the separation enters the depolymerization of head-on collision type airflow milling, carry out surface active simultaneously, the working pressure of this airflow milling is 1.0～1.2MPa, temperature is 18～22 ℃, enter in the loading head again and collect, reach d90≤φ 1.2 μ thereby obtain fineness, uniformity coefficient reaches 100,000/ powder; To prepare burden by following prescription (parts by weight) by the powder that aforesaid method obtains: negative ion jewel micro mist 100, far infrared micro mist 2～2.5, antibiotic micro mist 1～1.5, suction ripple ferrite 0.5～0.85, antistatic conductive micro mist 0.3～0.75, argentiferous ionic catalyst 0.5～0.75, dispersion agent 0.3～0.75, nonionogenic tenside 0.25～0.75 obtain the health building paint intermediate product.