CN101381222A - Filter material of energy cup filter element and agglomeration technology - Google Patents

Filter material of energy cup filter element and agglomeration technology Download PDF

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Publication number
CN101381222A
CN101381222A CNA2008101551720A CN200810155172A CN101381222A CN 101381222 A CN101381222 A CN 101381222A CN A2008101551720 A CNA2008101551720 A CN A2008101551720A CN 200810155172 A CN200810155172 A CN 200810155172A CN 101381222 A CN101381222 A CN 101381222A
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spherolite
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temperature
sintering
raw material
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林真宇
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Abstract

The invention relates to a sintering process for a filter core and a filter material of an energy cup. The sintering process comprises the following: 1. a step of grain material preparation; 2. a step of crushing and grinding: the three grain raw materials prepared are put in a ball mill for crushing and grinding respectively until the grain diameters of the raw materials meet the certain grain diameter requirements; 3. a step of granulation: the three prepared grain raw materials which are obtained by crushing and grinding and of which the grain diameters meet the corresponding grain diameter requirements are put in a stirrer respectively, are added with water and evenly stirred, and are sent into a granulator to prepare grains with certain grain diameter requirement; and 4. a step of sintering: A. far infrared grains are subjected to high-temperature sintering in a tunnel kiln at a temperature of between 1, 000 and 1, 140 DEG C for 1 to 2 hours; B. tourmaline grains are subjected to low-temperature sintering in the tunnel kiln at a temperature of between 50 and 350 DEG C for 14 to 16 hours; C. nano silver grains are subjected to low-temperature sintering in the tunnel kiln at a temperature of between 250 and 350 DEG C for 1 to 2 hours; and D. rare earth grains are subjected to high-temperature sintering in the tunnel kiln at a temperature of between 1, 300 and 1, 500 DEG C for 1 to 2 hours. The sintering process has the advantages that the activated water in which the filter material is soaked can activate human body cells, improve immunity of the body, restrain bacterium, restrain excessive free radicals in human body, delay ageing and so on.

Description

Filter material of energy cup filter element and sintering process
Technical field
The present invention relates to healthcare products, relate in particular to the sintering process of filter material of energy cup filter element.
Background technology
Energy measuring cup in the market be at the cup end of water glass a kind of filter core to be set, and filter core is built-in with filtrate.Filtrate makes water quality play useful variation under the immersion of water in the cup, and having produced is of value to the healthy health-care effect of drinking person.
Existing filtrate substantially all is to fire with clay with medical stone, MUSYUSHI etc. to form, and main function is to improve the pH value of water, makes it to have weakly alkaline, in order to change human body owing to smoking, indulge in excessive drinking and drink the acidic constitution that soda pop etc. forms.Its function singleness, and the effective constituent to human body generation beneficial effect also is difficult for being absorbed by the body in the water, thereby actual effect is also not obvious.
Summary of the invention
The object of the present invention is to provide a kind of sintering process that multiple functional mineral confrontation HUMAN HEALTH has a kind of filter material of energy cup filter element of comprehensive action that contains, it is realized by the technical scheme that comprises the steps:
1) configuration spherolite raw material
A. dispose far infrared spherolite raw material, dispose following raw material by weight percentage: far-infrared powder 20~40%, medical stone 5~10%, MUSYUSHI 2~8%, clay 50~65%,
B. dispose tourmalinite spherolite raw material, dispose following raw material by weight percentage: tourmaline powder 30~50%, medical stone 10~20%, MUSYUSHI 5~10%, clay 30~50%,
C. dispose nanometer silver spherolite raw material, dispose following raw material by weight percentage: nano-scale silver powder 1~3%, medical stone 5~10%, clay 40~50%, kaolin 39~50%,
D. dispose rare earth spherolite raw material, dispose following raw material by weight percentage: rare earth powder 5~10%, medical stone 10~30%, MUSYUSHI 10~20%, clay 50~55%;
2) pulverize grinding
Three kinds of spherolite raw materials of above-mentioned configuration are put into ball mill respectively pulverize grinding, make the particle diameter of each raw material reach certain particle diameter requirement.
3) granulate
Above-mentioned configuration and three kinds of spherolite raw materials being ground to corresponding particle diameter requirement are put into stirrer respectively to be added the water back input nodulizer that stirs and makes and have the pellet that certain particle diameter requires.
4) sintering
A. the sintering of far infrared spherolite, above-mentioned far infrared spherolite material is put into tunnel furnace, at first temperature is controlled at 100 ℃, carry out 2~4 hours oven dry, again by 14~16 hours slowly be warming up to 1000~1140 ℃ of high temperature sinterings that carry out 1~2 hour, through cooling comparatively slowly in 9~11 hours, make pellet reduce to normal temperature at last.
B. the sintering of tourmalinite spherolite, above-mentioned tourmalinite spherolite material is put into tunnel furnace, at first temperature is controlled at 100 ℃, carry out 2~4 hours oven dry, again by 2~4 hours more slowly be warming up to the low-temperature sintering that 250~350 ° of C carry out 14~16 hours, through cooling comparatively slowly in 4~6 hours, make pellet reduce to normal temperature at last.
C. the sintering of nanometer silver spherolite, above-mentioned nanometer silver spherolite material is put into tunnel furnace, at first temperature is controlled at 100 ℃, carry out 2~4 hours oven dry, again by 1.5~2.5 hours slowly be warming up to 250~350 ℃ of low-temperature sinterings of carrying out 1~2 hour, through cooling comparatively slowly in 4~6 hours, make pellet reduce to normal temperature at last.
D. the sintering of rare earth spherolite, above-mentioned rare earth spherolite material is put into tunnel furnace, at first temperature is controlled at 100 ℃, carry out 2~4 hours oven dry, again by 14~16 hours slowly be warming up to 1300~1500 ℃ of high temperature sinterings that carry out 1~2 hour, through cooling comparatively slowly in 9~11 hours, make pellet reduce to normal temperature at last.
The particle diameter that described raw material pulverizing is ground requires: far-infrared powder 6~50um, and tourmaline powder 6~140um, nano-scale silver powder 20~30nm, the particle diameter of rare earth powder is 5~200um, clay 10~180um.
The particle diameter of described granulation requires: far infrared spherolite footpath 2~5mm, and tourmalinite spherolite footpath 2~5mm, the particle diameter of rare earth spherolite is 1~2mm, the particle diameter of nanometer silver spherolite is 1~2mm.
Rare earth powder in the filtrate of the present invention is that a kind of mineral material that contains 12 kinds of rare earth elements such as needed by human body cerium, praseodymium makes through pulverizing.Rare earth element has participated in the synthetic and metabolic process of human amino acid, protein, enzyme, Nucleotide etc.Thereby it has competitive inhibition calcium ion performance blood coagulation resisting function; Rare earth element and cell phosphatide have stronger avidity, and energy stabilized cell and lysosome membrane reach the anti-inflammatory purpose thereby suppress the lysosome secretion; It can stimulating pancreas β emiocytosis Regular Insulin and produces hypoglycemic activity.
Far-infrared powder in the filtrate of the present invention is that a kind of mineral material with the effect of reflection far infrared rays makes through pulverizing.The far-infrared engergy that it discharged and water molecules produce resonance, can make that macromole group becomes small molecules group in the water, increase the oxygen level of water.Because negative oxygen ion has higher activity, very strong reductive action is arranged, can destroy the activity of cytolemma or the cellular plasm organized enzyme of bacterium, therefore can reach the purpose of antibacterial sterilization.Far-infrared powder has emittance height, effect that water-intake rate is big in addition, the trace element in the rare earth spherolite such as selenium, zinc, iodine etc. slowly can be released in the activated water equably, makes the activatory activated water contain more beneficial mineral matter.
Tourmaline powder in the filtrate of the present invention is a kind ofly to have electropolar tourmalinite (also being mineral material) and make through pulverizing.The particle diameter of powder is more little, and its positive and negative polarity is strong more.It is once contact water, and moment just can discharge the electric current of 0.06MA in water, and the hydrogen ion in the water molecules on every side just separates with hydroxide ion.Hydrogen ion and electronics are combined into hydrogen on the one hand, hydroxide ion and the water molecules on every side active substance that becomes to have the negative ion characteristic on the other hand, make glassware for drinking water that the reductibility current potential be arranged, water will become basic ion water (about pH value 7.4, being the same with the body fluid of human body) under this environment.Negative ion has the human body of adjusting ionic equilibrium, makes effects such as people's body and mind loosens, active cells, raising nature curative ratio, and the oxidation of energy delaying human body flesh energy or aging.
Nano-scale silver powder in the filtrate of the present invention is that the silver powder grain is accomplished nano level particle diameter.Nano level silver all has had strong inhibitory effects to tens of kinds of pathogenic microorganisms such as intestinal bacteria, gonococcus, chlamydia trachomatises.It also has the promotion repair to impaired epithelial cell.Its antibacterial effect of nanometer silver of meeting water more strengthens, and is more conducive to improve water quality.
Therefore, with above-mentioned to HUMAN HEALTH have specific function effect mineral and nanometer silver material and existing some filtrates commonly used by certain than row configuration, granulation after contriver's sintering of the sintering process of development meticulously makes filtrate of the present invention have following beneficial effect:
1) activated water that soaks through filtrate, molecular grouping is very little, can be attached to tightly on the cytolemma, poly-energetic charges amount in the small-micelle water, the electrophoresis amount of increase cell makes the cells fill vigor, plays the active cells effect, thus enhancing body immunizing power.
2) weakly alkaline small-micelle water, intermolecular marshalling, density height, seepage force are strong, can infiltrate tissue and cell effectively, strengthen replenishing and the discharge of waste of nutrient, enhance metabolism, and improve metabolic function.
3) minimum because of water clusters, water oxygen level is increased, can suppress the breeding of microorganism, have fine fungistatic effect, owing to contain the nanometer silver material, fungistatic effect is better, has broad-spectrum antibacterial action simultaneously.
4) the negative potential small-micelle water can effectively be removed superfluous free radical, suppresses the vivo oxidation effect, improves antioxidant capacity of human body, delays senility.
5) small-micelle water of rare earth element has participated in the synthetic and metabolic process of human amino acid, protein, enzyme, Nucleotide etc., thereby has competitive inhibition calcium ion performance blood coagulation resisting function, stimulating pancreas β emiocytosis Regular Insulin and produce hypoglycemic activity.
Embodiment
Far-infrared powder of the present invention and tourmaline powder are that Aluminosilicates mineral known in those skilled in the art and silicates mineral make powder through pulverizing.
Embodiment 1
1) configuration spherolite raw material
Earlier by following weight percent configuration far infrared spherolite raw material: far-infrared powder 20%, medical stone 10%, MUSYUSHI 5%, clay 65%.
Secondly by following weight percent configuration tourmalinite spherolite raw material: tourmaline powder 40%, medical stone 20%, MUSYUSHI 10%, clay 30%.
Again by following weight percent configuration nanometer silver spherolite raw material: nano-scale silver powder 3%, medical stone 7%, clay 40%, kaolin 50%.
At last by following weight percent configuration rare earth spherolite raw material: rare earth powder 5%, medical stone 20%, MUSYUSHI 20%, clay 55%.
2) pulverize grinding
Three kinds of spherolite raw materials of above-mentioned configuration are put into ball mill respectively pulverize grinding, making the particle diameter of each raw material reach following particle diameter requires: far-infrared powder 6~50um, tourmaline powder 6~140um, nano-scale silver powder 20~30nm, the particle diameter of rare earth powder is 5~200um, clay 10~180um.
3) granulate
With above-mentioned configuration and reach the above-mentioned three kinds of spherolite raw materials that grind the particle diameter requirement and put into stirrer respectively and add the water that is equivalent to raw material gross weight 20% and stir; send into nodulizer after stirring and make pellet: far infrared spherolite footpath 2~5mm with following particle diameter requirement; tourmalinite spherolite footpath 2~5mm; the particle diameter of rare earth spherolite is 1~2mm, and the particle diameter of nanometer silver spherolite is 1~2mm.
4) sintering
The sintering of far infrared spherolite, above-mentioned far infrared spherolite material is put into tunnel furnace, at first temperature is controlled at 100 ℃, carry out 3 hours oven dry, again by 15 hours slowly be warming up to 1070 ℃ after, carry out two hours sintering, through cooling comparatively slowly in 10 hours, make pellet reduce to normal temperature at last.
The sintering of tourmalinite spherolite, above-mentioned tourmalinite spherolite material is put into tunnel furnace, at first temperature is controlled at 100 ℃, carry out 3 hours oven dry, again by 3 hours be warming up to 300 ℃ after, carry out 300 ℃ of low-temperature sinterings of 15 hours, through cooling comparatively slowly in 5 hours, make pellet reduce to normal temperature at last.
The sintering of nanometer silver spherolite, above-mentioned nanometer silver spherolite material is put into tunnel furnace, at first temperature is controlled at 100 ℃, carry out 3 hours oven dry, again by 2 hours slowly be warming up to 300 ℃ after, carry out 1.5 hours low-temperature sintering, through cooling comparatively slowly in 5 hours, make pellet reduce to normal temperature at last.
The sintering of rare earth spherolite, above-mentioned rare earth spherolite material is put into tunnel furnace, at first temperature is controlled at 100 ℃, carry out 3 hours oven dry, again by 15 hours slowly be warming up to 1400 ℃ after, carry out 1.5 hours high temperature sintering, through cooling comparatively slowly in 10 hours, make pellet reduce to normal temperature at last.
Embodiment 2
1) configuration spherolite raw material
Earlier by following weight percent configuration far infrared spherolite raw material: far-infrared powder 40%, medical stone 8%, MUSYUSHI 2%, clay 50%.
Secondly by following weight percent configuration tourmalinite spherolite raw material: tourmaline powder 50%, medical stone 10%, MUSYUSHI 5%, clay 35%.
Again by following weight percent configuration nanometer silver spherolite raw material: nano-scale silver powder 1%, medical stone 10%, clay 50%, kaolin 39%.
At last by following weight percent configuration rare earth spherolite raw material: rare earth powder 10%, medical stone 30%, MUSYUSHI 10%, clay 50%.
2) pulverize grinding
Three kinds of spherolite raw materials of above-mentioned configuration are put into ball mill respectively pulverize grinding, making the particle diameter of each raw material reach following particle diameter requires: far-infrared powder 6~50um, tourmaline powder 6~140um, nano-scale silver powder 20~30nm, the particle diameter of rare earth powder is 5~200um, clay 10~180um.
3) granulate
With above-mentioned configuration and reach the above-mentioned three kinds of spherolite raw materials that grind the particle diameter requirement and put into stirrer respectively and add the water that is equivalent to raw material gross weight 20% and stir; send into nodulizer after stirring and make pellet: far infrared spherolite footpath 2~5mm with following particle diameter requirement; tourmalinite spherolite footpath 2~5mm; the particle diameter of rare earth spherolite is 1~2mm, and the particle diameter of nanometer silver spherolite is 1~2mm.
4) sintering
The sintering of far infrared spherolite, above-mentioned far infrared spherolite material is put into tunnel furnace, at first temperature is controlled at 100 ℃, carry out 2 hours oven dry, again by 16 hours slowly be warming up to 1140 ℃ after, carry out 1.5 hours sintering, through cooling comparatively slowly in 11 hours, make pellet reduce to normal temperature at last.
The sintering of tourmalinite spherolite, above-mentioned tourmalinite spherolite material is put into tunnel furnace, at first temperature is controlled at 100 ℃, carry out 4 hours oven dry, again by 4 hours be warming up to 400 ℃ after, carry out 300 ℃ of low-temperature sinterings of 2 hours, through cooling comparatively slowly in 7 hours, make pellet reduce to normal temperature at last.
The sintering of nanometer silver spherolite, above-mentioned nanometer silver spherolite material is put into tunnel furnace, at first temperature is controlled at 100 ℃, carry out 2 hours oven dry, again by 2.5 hours slowly be warming up to 350 ℃ after, carry out 1 hour low-temperature sintering, through cooling comparatively slowly in 6 hours, make pellet reduce to normal temperature at last.
The sintering of rare earth spherolite is put into tunnel furnace with above-mentioned rare earth spherolite material, and at first temperature is controlled at 100 ℃, carry out 2 hours oven dry, again by 16 hours slowly be warming up to 1500 ℃ after, carry out 1 hour high temperature sintering, through cooling comparatively slowly in 11 hours, make pellet reduce to normal temperature at last.
Embodiment 3
1) configuration spherolite raw material
Earlier by following weight percent configuration far infrared spherolite raw material: far-infrared powder 27%, medical stone 5%, MUSYUSHI 8%, clay 60%.
Secondly by following weight percent configuration tourmalinite spherolite raw material: tourmaline powder 30%, medical stone 12%, MUSYUSHI 8%, clay 50%.
Again by following weight percent configuration nanometer silver spherolite raw material: nano-scale silver powder 2%, medical stone 5%, clay 45%, kaolin 48%.
At last by following weight percent configuration rare earth spherolite raw material: rare earth powder 8%, medical stone 10%, MUSYUSHI 30%, clay 52%.
2) pulverize grinding
Three kinds of spherolite raw materials of above-mentioned configuration are put into ball mill respectively pulverize grinding, making the particle diameter of each raw material reach following particle diameter requires: far-infrared powder 6~50um, tourmaline powder 6~140um, nano-scale silver powder 20~30nm, the particle diameter of rare earth powder is 5~200um, clay 10~180um.
3) granulate
With above-mentioned configuration and reach the above-mentioned three kinds of spherolite raw materials that grind the particle diameter requirement and put into stirrer respectively and add the water that is equivalent to raw material gross weight 20% and stir; send into nodulizer after stirring and make pellet: far infrared spherolite footpath 2~5mm with following particle diameter requirement; tourmalinite spherolite footpath 2~5mm; the particle diameter of rare earth spherolite is 1~2mm, and the particle diameter of nanometer silver spherolite is 1~2mm.
4) sintering
The sintering of far infrared spherolite is put into tunnel furnace with above-mentioned far infrared spherolite material, and at first temperature is controlled at 100 ℃, carry out 4 hours oven dry, again by 14 hours slowly be warming up to 1000 ℃ after, carry out 3 hours sintering, through cooling comparatively slowly in 9 hours, make pellet reduce to normal temperature at last.
The sintering of tourmalinite spherolite, above-mentioned tourmalinite spherolite material is put into tunnel furnace, at first temperature is controlled at 100 ℃, carry out 2 hours oven dry, again by 2 hours be warming up to 350 ℃ after, carry out 300 ℃ of low-temperature sinterings of 1.5 hours, through cooling comparatively slowly in 6 hours, make pellet reduce to normal temperature at last.
The sintering of nanometer silver spherolite, above-mentioned nanometer silver spherolite material is put into tunnel furnace, at first temperature is controlled at 100 ℃, carry out 4 hours oven dry, again by 1.5 hours slowly be warming up to 250 ℃ after, carry out 2 hours low-temperature sintering, through cooling comparatively slowly in 4 hours, make pellet reduce to normal temperature at last.
The sintering of rare earth spherolite is put into tunnel furnace with above-mentioned rare earth spherolite material, and at first temperature is controlled at 100 ℃, carry out 4 hours oven dry, again by 14 hours slowly be warming up to 1300 ℃ after, carry out 2 hours high temperature sintering, through cooling comparatively slowly in 9 hours, make pellet reduce to normal temperature at last.

Claims (3)

1. the sintering process of filter material of energy cup filter element is characterized in that comprising the following steps:
1) configuration spherolite raw material
A. dispose far infrared spherolite raw material, dispose following raw material by weight percentage: far-infrared powder 20~40%, medical stone 5~10%, MUSYUSHI 2~8%, clay 50~65%,
B. dispose tourmalinite spherolite raw material, dispose following raw material by weight percentage: tourmaline powder 30~50%, medical stone 10~20%, MUSYUSHI 5~10%, clay 30~50%,
C. dispose nanometer silver spherolite raw material, dispose following raw material by weight percentage: nano-scale silver powder 1~3%, medical stone 5~10%, clay 40~50%, kaolin 39~50%,
D. dispose rare earth spherolite raw material, dispose following raw material by weight percentage: rare earth powder 5~10%, medical stone 10~30%, MUSYUSHI 10~20%, clay 50~55%;
2) pulverize grinding
Three kinds of spherolite raw materials of above-mentioned configuration are put into ball mill respectively pulverize grinding, make the particle diameter of each raw material reach certain particle diameter requirement;
3) granulate
Above-mentioned configuration and three kinds of spherolite raw materials being ground to corresponding particle diameter requirement are put into stirrer respectively to be added the water back input nodulizer that stirs and makes and have the pellet that certain particle diameter requires;
4) sintering
A. the sintering of far infrared spherolite, above-mentioned far infrared spherolite material is put into tunnel furnace, at first temperature is controlled at 100 ℃, carry out 2~4 hours oven dry, again by 14~16 hours slowly be warming up to 1000~1140 ℃ of high temperature sinterings that carry out 1~2 hour, through cooling comparatively slowly in 9~11 hours, make pellet reduce to normal temperature at last
B. the sintering of tourmalinite spherolite, above-mentioned tourmalinite spherolite material is put into tunnel furnace, at first temperature is controlled at 100 ℃, carry out 2~4 hours oven dry, again by 2~4 hours more slowly be warming up to 250~350 ℃ of low-temperature sinterings of carrying out 14~16 hours, through cooling comparatively slowly in 4~6 hours, make pellet reduce to normal temperature at last
C. the sintering of nanometer silver spherolite, above-mentioned nanometer silver spherolite material is put into tunnel furnace, at first temperature is controlled at 100 ℃, carry out 2~4 hours oven dry, again by 1.5~2.5 hours slowly be warming up to 250~350 ℃ of low-temperature sinterings of carrying out 1~2 hour, through cooling comparatively slowly in 4~6 hours, make pellet reduce to normal temperature at last
D. the sintering of rare earth spherolite, above-mentioned rare earth spherolite material is put into tunnel furnace, at first temperature is controlled at 100 ℃, carry out 2~4 hours oven dry, again by 14~16 hours slowly be warming up to 1300~1500 ℃ of high temperature sinterings that carry out 1~2 hour, through cooling comparatively slowly in 9~11 hours, make pellet reduce to normal temperature at last.
2. the sintering process of filter material of energy cup filter element according to claim 1, it is characterized in that particle diameter that described raw material pulverizing is ground requires to be far-infrared powder 6~50um, tourmaline powder 6~140um, nano-scale silver powder 20~30nm, the particle diameter of rare earth powder is 5~200um, clay 10~180um.
3. the sintering process of filter material of energy cup filter element according to claim 1, the particle diameter that it is characterized in that described granulation requires to be far infrared spherolite footpath 2~5mm, tourmalinite spherolite footpath 2~5mm, the particle diameter of rare earth spherolite is 1~2mm, the particle diameter of nanometer silver spherolite is 1~2mm.
CNA2008101551720A 2008-10-23 2008-10-23 Filter material of energy cup filter element and agglomeration technology Pending CN101381222A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CNA2008101551720A CN101381222A (en) 2008-10-23 2008-10-23 Filter material of energy cup filter element and agglomeration technology

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Application Number Priority Date Filing Date Title
CNA2008101551720A CN101381222A (en) 2008-10-23 2008-10-23 Filter material of energy cup filter element and agglomeration technology

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Publication Number Publication Date
CN101381222A true CN101381222A (en) 2009-03-11

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Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102101773A (en) * 2010-11-26 2011-06-22 新时代健康产业(集团)有限公司 Activating ceramic core, preparation method thereof, container having same and preparation method of container
CN102161545A (en) * 2011-02-26 2011-08-24 福建金源泉科技发展有限公司 Function faucet activator
CN102225860A (en) * 2011-05-06 2011-10-26 宁波市宣溢水处理设备有限公司 Rare-earth porcelain sand filter material ball for removing organic matters and preparation method thereof
CN102503363A (en) * 2011-10-27 2012-06-20 温州磊石康保健用品有限公司 Health-care medical stone ceramic material and application thereof
CN105836869A (en) * 2016-05-07 2016-08-10 上海翠利电器科技有限公司 Internal photodisintegration hydrogen-rich mineral activated water
CN105836957A (en) * 2016-05-07 2016-08-10 上海翠利电器科技有限公司 Internal photodisintegration hydrogen-rich mineral activated water generator and application
CN106473917A (en) * 2016-11-01 2017-03-08 淄博福万工贸有限公司 Hot moxibustion particle of nano biological and preparation method thereof

Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102101773A (en) * 2010-11-26 2011-06-22 新时代健康产业(集团)有限公司 Activating ceramic core, preparation method thereof, container having same and preparation method of container
CN102101773B (en) * 2010-11-26 2013-01-09 新时代健康产业(集团)有限公司 Activating ceramic core, preparation method thereof, container having same and preparation method of container
CN102161545A (en) * 2011-02-26 2011-08-24 福建金源泉科技发展有限公司 Function faucet activator
CN102225860A (en) * 2011-05-06 2011-10-26 宁波市宣溢水处理设备有限公司 Rare-earth porcelain sand filter material ball for removing organic matters and preparation method thereof
CN102225860B (en) * 2011-05-06 2013-01-16 宁波市宣溢水处理设备有限公司 Rare-earth porcelain sand filter material ball for removing organic matters and preparation method thereof
CN102503363A (en) * 2011-10-27 2012-06-20 温州磊石康保健用品有限公司 Health-care medical stone ceramic material and application thereof
CN105836869A (en) * 2016-05-07 2016-08-10 上海翠利电器科技有限公司 Internal photodisintegration hydrogen-rich mineral activated water
CN105836957A (en) * 2016-05-07 2016-08-10 上海翠利电器科技有限公司 Internal photodisintegration hydrogen-rich mineral activated water generator and application
CN105836869B (en) * 2016-05-07 2019-06-18 上海翠利电器科技有限公司 Interior light fission hydrogen-rich mineral activation water
CN106473917A (en) * 2016-11-01 2017-03-08 淄博福万工贸有限公司 Hot moxibustion particle of nano biological and preparation method thereof

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