CN101863653B - Far infrared Nixing pottery product and preparation method thereof - Google Patents

Abstract

The invention discloses a far infrared Nixing pottery product and a preparation method thereof. The far infrared Nixing pottery finished product, far infrared Nixing pottery powder and far infrared Nixing pottery slurry is prepared by adding the metal oxides Cr2O3, MgO, MnO2 and ZrO2 and other compounds serving as auxiliary raw materials into Nixing pottery which is made in Qinzhou, Guangxi, and has the advantages of more cheap chemical components, high content and high quality and serves as a main raw material and roasting the mixture at the temperature of between 1,000 and 1,200 DEG C in a high-temperature electric furnace or a high-temperature roasting furnace or a high-temperature burning kiln according to the pottery. The far infrared Nixing pottery product transmits a far infrared ray with the wavelength of 6 to 23 mu m at the normal temperature and can be applied to the industry, medical care and living goods in the fields such as medical care, energy conservation and environment protection, building materials, heat insulating materials, water quality improvement, paper making plastic, fiber weaving, food preservation, food roasting, wine making industry, pharmaceutical industry and the like. The preparation method has the advantages of simple process, low energy consumption, low cost, high benefit and good product quality.

Description

Far infrared Nixing pottery product and preparation method thereof

Technical field:

The present invention relates to stupalith and product technique field thereof, particularly relate to a kind of far infrared Nixing pottery product and preparation method thereof.

Background technology:

At present, existing far infrared fictile be by inorganic mineral, nonmetal oxide and MOX by certain cooperation, process through science, it can launch the far infrared rays to 5～25 the most useful mum wavelengths of human body.Change principle altogether according to physics, when far-infrared radiation when the human body, these far infrared rayss are easy to be absorbed by the body, and are sent to subcutaneously than the position, deep, human body are produced biomacromolecules such as activation of protein, make its performance regulate human body immune function.In addition, these rays have higher power of impregnation and radiant ratio, so in the extremely short time, just can in vivo with the form of energy transformation, promote biological intravital circulation and metabolism high-effectly by bio-absorbable and infiltration, promote to grow.Process various ceramics by potting porcelain technology, perhaps mix in plastics, fiber and the cement, perhaps be coated in and process the far infrared goods on its finished surface.Be widely used in industry, medical insurance and daily necessities in the numerous areas such as health care, energy-conserving and environment-protective, material of construction, lagging material, change water quality, papermaking plastics, fibrous woven, food fresh-keeping, roasting food and wine brewing pharmaceutical industry.

Chinese patent CN1131649A far infrared ceramic powder and goods thereof are made up of and parts by weight are: SiO raw material ₂30～45, Al ₂O ₃35～50, MgO 20～25, TiO ₂4～10 or with CaO 8～14 or and Ni ₂O ₃3～5, through 1100～1300 ℃ of roastings, pulverize and process far infrared ceramic powder.This far infrared ceramic powder, in 8～15 mu m waveband scopes, normal direction spectrographic emissivity reaches more than 85%.Can process Ceramic Balls by ceramic process, ceramic plate is used for fuel-economizing and energy saver, can also be used for mixing plastics and process crisper and plastic film, is used for fresh-keepingly, mixes fiber or is coated in and process the far infrared health care goods on the fabric.

One kind of Chinese patent CN1394828A prepares the material of Low Temperature Far Infrared pottery, and it is to be basic raw material with feldspar, kaolin, adds high radiant rate additives such as borax, aluminum oxide, zirconium white, zinc oxide.The long emissivity values of the all-wave of ceramics powder is 0.93, in wavelength 8～14 μ m emissivity values greater than 0.95.The composition of raw material and parts by weight thereof are: feldspar 50～60%, kaolin 10～20%, borax 10～15%, aluminum oxide 5～10%, zirconium white 5～10% and zinc oxide 10～20%.Its production process is: the first step is chosen basic raw material: feldspar, kaolin and high radiant rate additive: borax, aluminum oxide, zirconium white and zinc oxide, pulverize respectively, and cross 300 mesh sieves; Second step mixed above-mentioned materials by prescription, added water and became reconciled, and moulding is dried naturally; The 3rd step high temperature sintering: put into High Temperature Furnaces Heating Apparatus or 1000～1100 ℃ of heated constant temperature of high temperature kiln to moulding air dried raw material block 2～3 hours, naturally cool to room temperature; The 4th step pulverized: will burn till and the pulverizing of refrigerative pottery, and cross 300 mesh sieves.Also can be processed into varigrained ceramics powder according to different purposes.This invents prepared Low Temperature Far Infrared stupalith, and cost is low, technology is easy, is widely used in health care, daily necessities, environmental protection and field such as energy-conservation.

Chinese patent CN1151381A health care, antibiotic multifunction ceramic glaze and ceramic thereof; The composition of this invention glaze and proportioning: basic glaze consumption is 10 parts; Auxiliary material far-infrared material zirconium, manganese, iron, chromium, cobalt and nickel and change thing and anti-biotic material gold and silver, copper and zinc metal or oxide compound 1: 1, consumption is 0.5～3 part.Glaze preparation and glazing process adopt existing firing process and equipment to burn till for totally three times: a, far-infrared material account for the mixture of 7 one-tenth weight ratios, with 1200～1250 ℃ of once-firing material; B, 1: 1 weight ratio mixture of far-infrared material and anti-biotic material become material with 800～1000 ℃ of secondary combustion; C, be that 10: 0.5～3 proportioning is processed glaze slip with basic glaze and twice firing material; D, impose on ceramic green, biscuit or execute on the greenwave of ground-coat enamel with glaze slip, and at 1100～1200 ℃ of Low fire ceramic goods.

Chinese patent CN101306883A portable ceramic article of increasing water quality and preparation, the main composition weight ratio of this ceramic is: monocrystalline tourmaline nano powder 50～70%, far infrared nano powder 10～30%, medical stone 8～24%, nano-antibacterial powder 5～15%, negative ion powder 5～15%, pore former 2～5%.Add water and put into vacuum mixer and fully stir, extrude through mould with mud extruder, and then drilling, through super-dry, 1200～1250 ℃ in loading of kiln stove is fired after 8 hours cooling and is come out of the stove into the container ceramic, and then inserts negative potential ball and alkali ion ball.When extruding, can extrude, process tubulose through tubular die with mud extruder.Also can pass through different dies as required, process other shape, like sphere.

The nanometer glaze of Chinese patent CN1609061A tool far-infrared radiation effect; Be by flux 35～65%, fusing assistant 1～35%, flame-proofing agent 0～25%, kill agent 0.1～5%, far-infrared powder material 0.5～30% and nano material 0.5～10% and mix; Adding water again, to grind to form concentration be 350 native 20g/200cc; Fineness is 200～325 purpose glaze; And be coated in the surface of ceramic green embryo or plain embryo; Sinter the ceramic that has the far-infrared radiation effect and have nano-meter characteristic into 1120～1350 ℃ temperature, flux is a kind of in feldspar, boron, boric acid, borax, borosilicate and the silica powder or several, and fusing assistant is a kind of in lime carbonate, barium carbonate, volatile salt, magnesiumcarbonate, zinc oxide and the talcum powder or several.Flame-proofing agent is one or both in kaolin and the frog order soil, kills agent and is made up of 38.42% silicon-dioxide, 17.13% Natural manganese dioxide, 0.69% aluminium sesquioxide, 0.11% red oxide of iron, 3.25% quicklime, 4.96% sodium oxide, 0.07% potassium oxide, 0.72% ammonium oxide and 24.84% inorganic resin.The far-infrared powder material is a zr element.Nano material is the compsn of silver, silicon, aluminium, sodium, potassium, magnesium, calcium and ferro element, perhaps is the oxide compound of silver, silicon, aluminium, sodium, potassium, magnesium, calcium and ferro element compsn.

The preparation of Chinese patent CN1076432A far-infrared ceramic material and goods thereof realizes with following technical scheme, is base-material with high pressure porcelain spare or cordierite porcelain and Mullite porcelain, and add-on is (weight %) 10～30%, adds SiO in addition ₂30～50%, AL ₂O ₂10～40%, GaO 0～3% and MgO 0～3% are mixed and made into the stupalith that can launch 5～20 mum wavelength far infrared rayss through pulverizing.In far-infrared ceramic material, add cement or plastic clay 10～35% (weight %); Thorough mixing is even, adds an amount of water again and carries out remix and make it form plastic material, and mould through required goods or hand are moulded and processed the goods that require shape; As non-burning brick etc.; Can be entity, also can be porous, also can be made into coating.Behind the product molding,, then the goods after the moulding are passed through the water vapor maintenance in airtight container as using at low temperatures, 260 ℃ of vapor temperatures, curing time can keep 2～4 hours according to the article shape size.As the goods that at high temperature use or directly and the people goods of direct relation are arranged, as be used for the goods of drinking water treatment, then must water knot, soaking time 1～4 hour through 800～1400 ℃ to the goods that were shaped.The forming method of goods has very big choice, can adopt half-dried platen press, plasticity-and slip casting method.

The prescription and the compound method of a Chinese patent CN1123780A far infrared ceramic powder, far infrared ceramic powder is by following four groups of compound: A group: Al ₂O ₃, MnO ₂, Ni ₂O ₃, TiO ₂And Cr ₂O ₃B group: kaolin, talcum and MgCO ₃C group: SiO ₂, Al ₂O ₃And ZrO ₂D group: kaolin, Al ₂O ₃And SiO ₂, form sintering under the temperature of regulation, time conditions respectively after four groups of compounds are synthetic in proportion; Mix; Through ball milling, process finished product after the drying and screening, this ceramics powder has stronger radiation effect at normal temperatures; Be mainly used in to mix and be made into various adaptation medical health care articles for use in the textile materials, reach the optimal efficacy of treatment various diseases.

Chinese patent CN1569735A far infrared rays biological ceramics is mainly made by its weight percent by following raw materials according.Prescription one: aluminium sesquioxide 15～25%, silicon-dioxide 38～47%, Z 250 20～30% and Manganse Dioxide 7～15%; Prescription two: aluminium sesquioxide 15～25%, silicon-dioxide 38～45%, Z 250 20～30%, Manganse Dioxide 7～15%, zinc chloride 2～7% and quicklime 0.5～3%.That the far infrared rays biological ceramics that makes like this has is constant, spatial emission goes out the function of 2～18 microns far-infrared electromagnetic wave towards periphery enduringly, and according to " absorbing the matching effect law ", this far-infrared engergy is to be absorbed by human body to greatest extent; Give birth to heat effect in producing effectively, thereby impel vasodilation, blood flow to speed, improve the histocyte circulation; Improve blood supply oxygen delivery capacity and metabolism, strengthen the repair ability of histoorgan, regulate the unbalance purpose of curing the disease that reaches of body; And easy to use, simple, do not need to safeguard that effect is big; Effect is good, can forever use.

Chinese patent CN1053050A far infrared ceramic powder and preparation method thereof is made by its weight percent by following raw materials according: Al ₂O ₃20～60, SiO ₂35～75, TiO ₂1.8～20, MgCO ₃1.8～20.2, ZrO ₂2～6, kaolin 35～60 and talcum 4～22.Its technological process is: ball milling after the raw materials mix 4～20 hours is dry at temperature 80～120 degree, sieve through 80～180 orders, and fire for 1300～1500 ℃ in temperature, last crushing screening 100-450 order, this powder can be launched the far infrared rays of 8～15 mum wavelengths.

The preparation technology and the goods of Chinese patent CN1088556A far infrared electrothermal dark-red pottery powder, it is base-material with the boccaro, adds metal and nonmetal oxide, AL ₂O ₃, SiO ₂, ZrO ₂, TiO ₂, raw material such as white far infrared ceramic powder and MgO according to certain proportioning like boccaro 60～90%, AL ₂O ₃3～25%, SiO ₂4～16%, TiO ₂0.1～4% and ZrO ₂0.2～5%.And for example: far infrared electrothermal dark-red pottery raw material is to be base-material with the boccaro, adds white far infrared ceramic powder, and its consumption is (weight %), boccaro 5～95% and white far infrared ceramic powder 95～5%.For another example: lightweight far infrared electrothermal dark-red pottery raw material is to be base-material with the boccaro, adds MOX and nonmetal oxide, each component amount ranges weight %: boccaro 60～90%, AL ₂O ₃2～25%, SiO ₂3～25% with MgO 0.1～10%.Happy porcelain powder raw material of the far infrared boccaro of processing and lightweight far infrared electrothermal dark-red pottery powder raw material, through ball milling 8～24 hours, dry down at 100～180 ℃; Be ground into 40～120 order fine powders; Burn till at 1200～1500 ℃, pulverized 10～36 hours through the ball milling temperature, 100～180 ℃ of dryings; Cross 180～400 mesh sieves, process the far infrared electrothermal dark-red pottery powder raw material and the lightweight far-infrared ceramic powder raw material of the high emissivity of 5～25 μ m.As blank, far infrared electrothermal dark-red pottery powder raw material or lightweight far-infrared ceramic powder raw material are glaze with boccaro for it, with blank shaping and drying, glazing, dried in the shade 24～48 hours, dry 100～120 ℃, sinter the far infrared Boccaro ceramic ware at 1200～1500 ℃.Process electrothermal dark-red pottery powder raw material and goods behind the preparation technology.Its feature is: not only do not had transition element in the raw material, and boccaro replaced more expensive industry and industrial chemicals, reduced cost, easy technology.Can be widely used in health care, change water quality, in the numerous areas such as energy-saving and cost-reducing in agriculture accelerating, material of construction and lagging material, the industry.

The method of manufacture of far-infrared ceramic goods can reduce two big types: one type is to be cooperated by a certain percentage by MOX and nonmetal oxide, and through high-temperature firing, the Cheng Fenhou that regrinds makes by pottery; Another kind of is a certain proportion of MOX and nonmetal oxide, without high-temperature firing, only mixes and gets final product.The former is at high temperature synthetic, and product has the crystallization phases of high emissivity, and use temperature is high, volume stability, good dispersivity.But its technological process is long, and energy consumption is big, and cost is high.Though latter's technology is simple, cost is low, is not the compound of ability synthetic high emissivity under the high temperature, changes bad dispersibility in the comparatively high temps lower volume.In the raw material of selecting for use, contained metal, MOX and nonmetal oxide kind are few, and the auxiliary material that need mix is more.The many content of the emerging vitrification composition of mud that produce in Qiezhou, Guangxi are high, and the ore deposit soil resource is abundant, and reserves reach billion cubic meter more than ten, and production cost is low, are the high-quality low-cost raw materials of preparation far-infrared ceramic goods.

Summary of the invention:

The object of the invention: be intended to select for use the emerging ceramic pottery of the mud raw material of the high high-quality low-cost of the many content of chemical ingredients,, a kind of far infrared Nixing pottery product and preparation method thereof be provided for preparing multiduty far-infrared ceramic goods.

Technical scheme of the present invention is following:

, in secular working practice, the emerging vitrification composition of mud of Qiezhou product and the chemical ingredients of pottery are analyzed comparison, and the various sintering technology conditions of far infrared fictile are explored according to the inventor; Adopting high Qiezhou, the Guangxi emerging pottery of mud of the many content of chemical ingredients is main raw material; Add a small amount of auxiliary material, the design technology process is simple, and energy consumption is low; Cost is low, the far infrared pottery method for cooking of good product quality.

The present invention is achieved in that

Far infrared Nixing pottery product is made up of the compound of emerging pottery raw material of mud and interpolation, and its component and parts by weight are: the emerging pottery of mud is 80～96, Cr ₂O ₃Be 0～2, MnO ₂Be 2～10, ZrO ₂Be 0～5 with clay be 2～15;

The emerging pottery raw material of described mud comprises that its composition and parts by weight are: SiO ₂Be 52～70, Al ₂O ₃Be 15～28, Fe ₂O ₃Be 5～10, MgO is 0.5～2, TiO ₂Be 0.5～1.5, K ₂O be 0.1～0.5 with a spot of CaO, Na2O and SrO;

Described goods comprise the emerging pottery moulded products of far infrared mud, the emerging pottery powder of far infrared mud and the emerging pottery slurry of far infrared mud.

The preparation method of the emerging pottery moulded products of above-described far infrared mud comprises: each raw material of will filling a prescription is pressed proportion ingredient and is dropped into 70～100 ℃ of following dryings of controlled temperature in the vacuum furnace drum drier; Drop into ball milling in the ball mill then; Sieve at 100～200 purpose screen(ing) machines; After mixing and moulding, put into high-temperature electric resistance furnace or high-temperature roasting stove or high-temperature roasting kiln again, under 100～200 ℃ temperature dry 1～2 hour earlier, slowly heat up then 1000～1200 ℃ roasting temperature 2～6 hours; The emerging pottery moulded products of various types of far infrared mud that promptly obtains to be cooled, this moulded products or glazing is once after mixing and moulding.

The preparation method of the emerging pottery powder of above-described far infrared mud comprises: the preparation of the emerging pottery powder of far infrared mud comprises: each raw material of will filling a prescription is pressed proportion ingredient and is dropped into 70～100 ℃ of following dryings of controlled temperature in the vacuum furnace drum drier; Drop into ball milling in the ball mill then; Sieve at 100～200 purpose screen(ing) machines; After mixing and moulding, put into high-temperature electric resistance furnace or high-temperature roasting stove or high-temperature roasting kiln again; Under 100～200 ℃ temperature dry 1～2 hour earlier, slowly heat up then 1000～1200 ℃ roasting temperature 2～6 hours, dropped in the ball mill ball milling after cooling 2～10 hours; Sieve through 100～400 purpose screen(ing) machines, perhaps require to be processed into varigrained ceramics powder according to purposes.

The preparation method of the emerging pottery slurry of described far infrared mud comprises: each raw material of will filling a prescription is pressed proportion ingredient and is dropped into 70～100 ℃ of following dryings of controlled temperature in the vacuum furnace drum drier, drops into ball milling in the ball mill then, sieves at 100～200 purpose screen(ing) machines; After mixing and moulding, put into high-temperature electric resistance furnace or high-temperature roasting stove or high-temperature roasting kiln again; Under 100～200 ℃ temperature dry 1～2 hour earlier, slowly heat up then 1000～1200 ℃ roasting temperature 2～6 hours, dropped in the ball mill ball milling after cooling 2～10 hours; Sieve through 100～400 purpose screen(ing) machines; Perhaps require to be processed into varigrained ceramics powder according to purposes, add inorganic resin or organic resin, ball milling is 1～5 hour in the input ball mill; After 100～200 purpose screen(ing) machines sieve, promptly obtain the emerging pottery pulp product of far infrared mud.

Advantage of the present invention and positively effect:

1, adopting the emerging pottery of mud of the high high-quality low-cost of the many content of chemical ingredients is main raw material; Add other compound; Wash in a pan technology in high-temperature electric resistance furnace or high-temperature roasting stove or high-temperature roasting kiln according to system; Through 1000～1200 ℃ roasting temperature, prepare multiduty far infrared Nixing pottery product, these goods comprise: the emerging pottery moulded products of far infrared mud, the emerging pottery powder of far infrared mud and the emerging pottery slurry of far infrared mud.

2, the preparation method of far infrared Nixing pottery product of the present invention, technological process is simple, and energy consumption is low, and cost is low, good product quality, high efficiency is a kind of efficient ways.

3, far infrared Nixing pottery product of the present invention; The far infrared rays of 6～23 mum wavelengths be can launch at normal temperatures, industry, medical insurance and daily necessities in the numerous areas such as health care, energy-conserving and environment-protective, material of construction, lagging material, change water quality, papermaking plastics, fibrous woven, food fresh-keeping, roasting food and wine brewing pharmaceutical industry are applied to.

Description of drawings:

Accompanying drawing 1: be the far infrared Nixing pottery product process flow diagram.

Embodiment:

Below in conjunction with concrete accompanying drawing and embodiment the present invention is done further detailed description, present embodiment only is that the present invention is made clearer explanation, rather than limitation of the present invention.

Proportioning related among each embodiment is parts by weight.

Embodiment 1:

Make composition of raw materials and the parts by weight thereof of life with far infrared Nixing pottery product: the emerging pottery of mud is 80, Cr ₂O ₃Be 1, MnO ₂Be 6, ZrO ₂Be 1 with clay be 12.

Making method: each raw material of will filling a prescription is pressed proportion ingredient; Dry down 75 ℃ of vacuum furnace drum drier controlled temperature, drop into ball milling in the ball mill then, in 180 purpose screen(ing) machines, sieve; After mixing and moulding, put into high-temperature electric resistance furnace again; Under 160～200 ℃ temperature dry 1 hour earlier, slowly heat up then 1000～1050 ℃ roasting temperature 5 hours, various types of far infrared Nixing pottery products are used in the life that promptly obtains launching 12 mum wavelengths.

Embodiment 2:

Make the composition of raw materials and the parts by weight thereof of medical treatment and far infrared Nixing pottery product for health care: the emerging pottery of mud is 80, Cr ₂O ₃Be 1, MnO ₂Be 10, ZrO ₂Be 4 with clay be 5.

Making method: each raw material of will filling a prescription is pressed proportion ingredient; Dry down 90 ℃ of vacuum furnace drum drier controlled temperature, drop into ball milling in the ball mill then, in 100 purpose screen(ing) machines, sieve; After mixing, the moulding and the demoulding, put into high-temperature electric resistance furnace again; Under 100～130 ℃ temperature dry 1.5 hours earlier, slowly heat up then 1100～1200 ℃ roasting temperature 2 hours, to be cooledly promptly obtain launching the medical treatment of 23 mum wavelengths and the far infrared Nixing pottery product of guaranteeing.

Embodiment 3:

Make composition of raw materials and the parts by weight thereof of glazing with the emerging pottery powder of far infrared mud: the emerging pottery of mud is 85, Cr ₂O ₃Be 2, MnO ₂Be 6, ZrO ₂Be 2 with clay be 5.

Making method: it is dry down 80 ℃ of vacuum furnace drum drier controlled temperature that each raw material of will filling a prescription is pressed proportion ingredient; Drop into ball milling in the ball mill then; Sieve at 200 purpose screen(ing) machines, after mixing and moulding, put into the high-temperature roasting stove again, heat up 1150～1200 ℃ roasting temperature 2 hours; Pulverize through 400 purpose screen(ing) machines after cooling and sieve, the glazing that obtains launching 22 mum wavelengths is with the emerging pottery powder of far infrared mud.

Embodiment 4:

Make the composition of raw materials and the parts by weight thereof of the emerging pottery slurry of far infrared mud: the emerging pottery of mud is 85, Cr ₂O ₃Be 2, MnO ₂Be 8, ZrO ₂Be 2, clay be 5 and organic resin be 30.

Making method: each raw material of will filling a prescription is pressed proportion ingredient and is dropped into 80 ℃ of following dryings of controlled temperature in the vacuum furnace drum drier, drops into ball milling in the ball mill then, sieves at 120 purpose screen(ing) machines; After mixing and moulding, put into the high-temperature electric resistance furnace kiln again, under 120 ℃ temperature dry 1.5 hours earlier, slowly heat up then 1150 ℃ roasting temperature 4 hours; Dropped in the ball mill ball milling after cooling 6 hours; Sieve through 300 purpose screen(ing) machines, add organic resin, ball milling is 2.5 hours in ball mill; After 160 purpose screen(ing) machines sieve, promptly obtain the emerging pottery pulp product of far infrared mud.

Embodiment 5:

Make the composition of raw materials and the parts by weight thereof of far IR fibre for health care: the emerging pottery powder of far infrared mud be 6 with fibrous material be 94.

Making method: the emerging pottery powder of far infrared mud of the present invention and fibrous material sent in the mixing machine mix, promptly obtain far IR fibre for health care by the spinning technique spinning then.

Embodiment 6:

Make far infrared textiles for health care: emerging pottery slurry of far infrared mud and textiles, the emerging pottery slurry of far infrared mud consumption are the sticking suction amount of textiles.

Making method: the emerging pottery slurry of far infrared mud added soaks in the long-pending groove, after textiles added soak in the long-pending groove, pull out then and drain or centrifuge dripping, final drying promptly obtains far infrared textiles for health care.

Claims (4)

1. far infrared Nixing pottery product, it is characterized in that: the compound by emerging pottery raw material of mud and interpolation is formed, and its component and parts by weight are: the emerging pottery of mud 80～96, Cr ₂O ₃0～2, MnO ₂2～10, ZrO ₂0～5 with clay 2～15;

The emerging pottery raw material of described mud comprises that its composition and parts by weight are: SiO ₂52～70, Al ₂O ₃15～28, Fe ₂O ₃5～10, MgO 0.5～2, TiO ₂0.5～1.5, K ₂O 0.1～0.5 and a spot of CaO, Na ₂O and SrO;

Described goods are the emerging pottery moulded products of far infrared mud, the emerging pottery powder of far infrared mud and the emerging pottery slurry of far infrared mud.

2. the preparation method of far infrared Nixing pottery product as claimed in claim 1; It is characterized in that: the preparation of the emerging pottery moulded products of far infrared mud comprises: each raw material of will filling a prescription is pressed proportion ingredient and is dropped into 70～100 ℃ of following dryings of controlled temperature in the vacuum furnace drum drier; Drop into ball milling in the ball mill then; Sieve at 100～200 purpose screen(ing) machines, after mixing and moulding, put into high-temperature electric resistance furnace or high-temperature roasting stove or high-temperature roasting kiln again, under 100～200 ℃ temperature dry 1～2 hour earlier; Slowly heat up 1000～1200 ℃ roasting temperature 2～6 hours the emerging pottery moulded products of various types of far infrared mud that promptly obtains to be cooled then.

3. the preparation method of far infrared Nixing pottery product according to claim 1; It is characterized in that: the preparation of the emerging pottery powder of far infrared mud comprises: each raw material of will filling a prescription is pressed proportion ingredient and is dropped into 70～100 ℃ of following dryings of controlled temperature in the vacuum furnace drum drier; Drop into ball milling in the ball mill then; Sieve at 100～200 purpose screen(ing) machines, after mixing and moulding, put into high-temperature electric resistance furnace or high-temperature roasting stove or high-temperature roasting kiln again, under 100～200 ℃ temperature dry 1～2 hour earlier; Slowly heat up then 1000～1200 ℃ roasting temperature 2～6 hours; Dropped in the ball mill ball milling after cooling 2～10 hours, and sieved, perhaps require to be processed into varigrained ceramics powder according to purposes through 100～400 purpose screen(ing) machines.

4. the preparation method of far infrared Nixing pottery product as claimed in claim 1; It is characterized in that: the preparation of the emerging pottery slurry of far infrared mud comprises: each raw material of will filling a prescription is pressed proportion ingredient and is dropped into 70～100 ℃ of following dryings of controlled temperature in the vacuum furnace drum drier, drops into ball milling in the ball mill then, sieves at 100～200 purpose screen(ing) machines; After mixing and moulding, put into high-temperature electric resistance furnace or high-temperature roasting stove or high-temperature roasting kiln again; Under 100～200 ℃ temperature dry 1～2 hour earlier, slowly heat up then 1000～1200 ℃ roasting temperature 2～6 hours, dropped in the ball mill ball milling after cooling 2～10 hours; Sieve through 100～400 purpose screen(ing) machines; Perhaps require to be processed into varigrained ceramics powder according to purposes, add inorganic resin or organic resin, ball milling is 1～5 hour in the input ball mill; After 100～200 purpose screen(ing) machines sieve, promptly obtain the emerging pottery pulp product of far infrared mud.