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KR20110050342A - Filtering device for removing lime and producing mineral - Google Patents

Filtering device for removing lime and producing mineral Download PDF

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Publication number
KR20110050342A
KR20110050342A KR1020100042327A KR20100042327A KR20110050342A KR 20110050342 A KR20110050342 A KR 20110050342A KR 1020100042327 A KR1020100042327 A KR 1020100042327A KR 20100042327 A KR20100042327 A KR 20100042327A KR 20110050342 A KR20110050342 A KR 20110050342A
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South Korea
Prior art keywords
filter material
weight
raw water
housing
filter
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KR1020100042327A
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Korean (ko)
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김혜정
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(주)금강넥스터
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Publication of KR20110050342A publication Critical patent/KR20110050342A/en

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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D35/00Filtering devices having features not specifically covered by groups B01D24/00 - B01D33/00, or for applications not specifically covered by groups B01D24/00 - B01D33/00; Auxiliary devices for filtration; Filter housing constructions
    • B01D35/30Filter housing constructions
    • B01D35/306Filter mounting adapter
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D39/00Filtering material for liquid or gaseous fluids
    • B01D39/14Other self-supporting filtering material ; Other filtering material
    • B01D39/20Other self-supporting filtering material ; Other filtering material of inorganic material, e.g. asbestos paper, metallic filtering material of non-woven wires
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D2239/00Aspects relating to filtering material for liquid or gaseous fluids
    • B01D2239/06Filter cloth, e.g. knitted, woven non-woven; self-supported material
    • B01D2239/0604Arrangement of the fibres in the filtering material
    • B01D2239/0618Non-woven

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  • Chemical & Material Sciences (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Geology (AREA)
  • Water Treatment By Sorption (AREA)
  • Filtering Materials (AREA)
  • Solid-Sorbent Or Filter-Aiding Compositions (AREA)

Abstract

PURPOSE: A filtering apparatus for eliminating lime and producing minerals is provided to eliminate foreign materials and heavy metal in addition to the ion-substitution function of the lime. CONSTITUTION: A filtering apparatus(100) for eliminating lime and producing minerals includes a first housing, a first filtering unit(20), and a second filtering unit(30). The first housing includes a first inlet and a first outlet. The first filtering unit eliminates lime from raw water passing through the first inlet and produces minerals. The second filtering unit eliminates lime from raw water passing through the first filtering unit and produces minerals.

Description

Filtering device for removing lime and producing mineral

The present invention relates to a filtration device for descaling and mineral production, and more particularly, filter materials such as natural stone, weak soil, diatomaceous earth, amethyst, feldspar, precious stone, volcanic stone, mordenite, quartz, catalyst and activator It is mixed into fine powders and formed into filter chip materials of various shapes, and by adjusting the component composition ratio of such filter chip materials, it is possible to remove calcite more effectively and to filter equipment for decalcification and mineral generation that can produce minerals necessary for the human body. It is about.

When a person drinks water containing calcareous water, it has various adverse effects on the human body. If lime accumulates in the human body, it may cause diseases such as kidney stones, bladder stones, gallstones and urinary tract stones, and may cause a decrease in blood circulation. Research has shown that villages that drink lime-containing water for a long time have a high risk of developing arthritis.

Even tap water or purified water is difficult to completely remove the calcifications according to the prior art. In experiments with heating tap or purified water with fire, white limes are often found on the floor, which is an inorganic mineral that accumulates in the body and adversely affects the human body as described above.

On the other hand, natural minerals have conventionally been used as raw materials for filters for filtering drinking water. Known prior art in this regard is as follows.

Korean Patent Application No. 2007-0031676 discloses a filter comprising activated carbon, copper zinc alloy, elvan, tourmaline, mixtures, and the like. Korean Patent Application No. 2008-0067943 discloses inorganic powders containing elvan, tourmaline, ocher, and the like. Disclosed is a porous inorganic filter comprising a binder, bamboo charcoal powder, and an antimicrobial agent.

Korean Patent Application No. 2005-0078543 discloses a ceramic body emitting nano-infrared rays by nano-treating ganbanite, tourmaline, titanium, ocher, purgatory, zirconia, hornblende, gansumite, germanium, chillum, alumina and the like.

Korean Patent Application No. 2006-0001165 discloses a filter comprising magnesium, zeolite, illite, ocher, elvan, tourmaline, and coral stone. Korean Patent Application No. 1999-0040510 discloses a micro filter, carbon filter, magnetic filter, tourmaline. Disclosed is a filter comprising a magnetized ceramic granule body and an agglomerate granule body.

Korean Patent Application No. 2009-0033967 discloses an anion mineral reducing water group equipped with a filter comprising a precious ear, a coral stone, a zeolite, a germanium, a tourmaline, a lumber stone, a magnetite, and a silver nanoSiO 2 .

Japanese Patent Publication No. 2004-322061 discloses a filter including activated carbon, elvan, coral, titanium, magnet, tourmaline, and Japanese Patent Publication No. 2003-299943 discloses a filter including tourmaline, elvan, ceramics, Japanese Utility Model Publication No. 3138526 discloses a filter including elvan, zenshu, and tourmaline.

Direct experiment of the filter described above was able to confirm the individual effects in the removal of impurities, anion release, etc., but did not show a great effect in removing the calcite component in the water.

Therefore, the present inventors, as well as the function of removing impurities, adsorption and removal of heavy metals, in addition to the function of dissolving the calcite component of the solid by physical change to replace the ions with minerals, and remove the calcite that can generate a mineral component and The filtration apparatus for mineral production was considered.

Accordingly, an object of the present invention is to provide a filtration device for removing calcification and minerals having a function of removing impurities, heavy metal adsorption and removal, as well as dissolving calcite components, which are solids in water, by physical change and ion substitution with minerals. .

It is also an object of the present invention to provide a filtration device for removing calcification and minerals having the function of allowing the adsorption, decomposition, removal, dissociation, and ionization of solids to be made at the same time to ionize them into beneficial minerals harmless to the human body.

Natural impurities can be used to remove impurities and adsorption of heavy metals, as well as the ability to decompose solid calcite components into physical changes and replace ions with minerals (cations such as +2 and / or +1). It is intended to have an ion filtration function to induce mineral components to activation.

Natural minerals used therein are natural stone, weak soil, diatomaceous earth, amethyst, feldspar, precious stone, volcanic stone, mordenite and quartz.

"Kenki Stone" is a supplemental reinforcement material for the intellect (component) containing tens of thousands of various elements and minerals, which are oxides in the molecular state, and has various elements that plants need. It is a kind of soil having the most affinity with. Cheonggye Rock is made by melting the Celestial Stone, including dolomite, hornblende, magnetite and hematite, at a high temperature of 1200 ~ 1300 ℃ to make glassy mass.

"Limited soil" is a complex alkali mineral mineral mixed with quartz, feldspar, biotite, kaolin, dolomite and fluorite, and is known to be toxic to the human body and effective in treating skin diseases and trauma. In addition, since it contains many kinds of mineral elements, it is known to enhance water quality such as various minerals eluting, pH adjustment, dissolved oxygen increase, and to promote biological growth by emitting more than 93% of high efficiency far infrared rays.

"Diatomaceous earth" is a fine algae fossil with a particle size of several micrometers to several tens of micrometers with white or greyish white, and silicic acid is the main component, and powder particles have many small pores. Widely used Filtration devices using diatomaceous earth include industrial water, municipal sewage, manure, slaughter, aquatic products, industrial wastewater, aquaculture farms, fish farms, aquariums, swimming pools, baths, water purification products, leather, dyeing, fiber, pollution prevention, car wash wastewater, glass, It is used to filter and purify liquid contaminants such as stone, metal processing liquid, electric discharge processing liquid, rolled oil, coating, plating liquid, and nonmagnetic abrasive processing liquid.

"Amethyst" is a crystal of crystal made of lumps of fluoride flowing down from lava by the power of volcanic hydrothermal water. Crystal produced by the action of iron and fluorine is a crystal of intellect, which releases good energy from itself and helps the surrounding bad energy. It is known to be absorbed and purified, and to prevent the stability and disease of the mind. Therefore, it has been used since ancient times as a medicine that inspires human spirit and enhances concentration. In China, it has been said to pray for longevity, and to carry amethyst seals to prevent disasters and to bring in riches. It is attracting attention as a far-infrared emitter by emitting 91.9% at 40 ° C and proving 99.3% as a result of precise analysis.

"Ferrite" is an aluminum silicate mineral containing potassium, sodium, calcium and barium. It is the main constituent of granite, and is mainly produced by three monolithic series of potassium feldspar, sodium feldspar and calcium feldspar. Potassium feldspar, sodium feldspar, calcium feldspar and sodium feldspar form a continuous solid solution, which is collectively referred to as alkali feldspar and plagioclase. Feldspar is believed to be the most abundant mineral in the earth's crust.

"Jewelry" is a type of granite, consisting of quartz plagioclase graystone or medium growth stone hornblende or biotite and biotite, which contains a large amount of minerals. Minerals that have been deposited under the sea for a very long time as orphans have since appeared on Earth's surface due to crustal changes, containing more than 40 different minerals and providing more minerals than any other ore.

"Volcanic rocks" are a type of volcanic ash. Volcanic stones are formed by burning clay by high temperature volcanic heat. Therefore, volcanic stones can be found in the terrain formed by volcanoes, but in Korea, they are easily found on Jeju Island, a volcanic island. Jeju volcanic stone generates anions at room temperature and is known as an ideal natural material that emits more than 92% of infrared rays at room temperature (below 40 ℃). Volcanic rocks are porous and have better water absorption and breathability than other rocks. It is known that the volcanic stone has a fire resistance of 1120 ° C to 1210 ° C, an absorption rate of 17.7% to 32.5%, and a wear rate of 47.25% to 67.22%. The fire resistance, absorption rate and wear rate of volcanic stone are higher than that of ordinary gravel or sand. Volcanic stones consist mainly of silicon oxide, aluminum oxide, and iron oxide, and include titanium dioxide which is absent in ocher, jade, elvan, germanium, and the like. Titanium dioxide is present in the volcanic stone 3 to 7%, and performs a photocatalytic action. Active oxygen is produced by the photocatalytic action of titanium dioxide, which is oxidatively decomposed into air pollutants, water pollutants, and odorous substances. According to the photocatalytic action of titanium dioxide, volcanic stone has semipermanent functions such as antibacterial, sterilization, deodorization and organic decomposition.

"Madeite" is a hydrated sodium potassium potassium aluminum silicate mineral belonging to a group of zeolites. One of the most abundant non-mineral minerals produced in metamorphic volcanic deposits, mainly produced as white glassy needles that fill veins or voids in igneous rock. Mordenite is also found in marine sedimentary rocks, as in the Ural Mountains, and in volcanic glass water-damaged rocks, such as in Isle of Scotland. Mordenite's molecular structure consists of a network of five ring chains bound together by silicates and aluminate tetrahedra (four oxygen atoms arranged around the center of a silicon or aluminum atom at the vertices of a triangular weight). It is. Because of the high ratio of silicon to aluminum, it is much more resistant to acids than most other minerals.

"Quartz", also known as adamellite, is a mineral that consists primarily of silica or silicon dioxide (SiO2) and has many variants. This rock is found in large basins of the world's midwifery (a very large igneous rock that lies far below the surface). Quartz monzonite contains more alkali feldspar than granite diorite, the amount of biotite is high, the amount of hornblende is small, and it differs in that it contains oligoclay instead of andesin as plagioclase mineral.

More specifically, the filtration apparatus for descaling and minerals generation according to the present invention comprises a first housing having a first inlet through which raw water is introduced and a first outlet through which filtered raw water is discharged; A first filter material present in the housing and capable of removing minerals and generating minerals present in raw water passing through the first inlet; And a second filter material present in the housing and capable of removing minerals and generating minerals present in the raw water passing through the first filter material, wherein the first filter material is 40 weight weakness. %, 21 to 23% by weight of clay, 19% by weight of diatomaceous earth, 12 to 13% by weight of amethyst and 5 to 8% by weight of feldspar, wherein the second filter material is 40 to 45% by weight of mordenite, 19% of gemstone %, 17 to 19% by weight of volcanic stone, 11 to 15% by weight of quartz and 7 to 8% by weight of a catalyst.

Preferably, the first filter material and the second filter material are each surrounded by a nonwoven fabric and are housed inside the housing.

Preferably, a pretreatment filter is further provided between the first inlet and the first filter material to mix and stack a ceramic and silica in a 50:50 ratio to remove impurities in the raw water passing through the first inlet. It features.

Preferably, a ceramic block filter is further provided between the second filter material and the first outlet so as to have a cylindrical shape disposed inside the housing at a predetermined distance from the housing, so that the raw water has passed through the second filter material. It is characterized by removing impurities.

Preferably, the second housing has a second inlet through which the lime is removed and mineral-generated raw water is introduced through the first housing and a second outlet through which the filtered raw water is discharged; A third filter material present in the housing and capable of removing minerals and generating minerals present in the raw water passing through the second inlet; And a fourth filter material present in the housing and capable of removing minerals and generating minerals present in raw water passing through the third filter material, wherein the third filter material includes diatomaceous earth 38-40. Wt%, 18-21% by weight of clay, 17-19% by weight of Cheongki, 12-14% by weight of quartz and 10-11% by weight of catalyst, the fourth filter material is 40-43% by weight of feldspar, 18% by weight of gemstones, 14 to 17% by weight of volcanic stones, 13% by weight of amethyst, 7 to 8% by weight of mordenite and 4 to 5% by weight of active agent.

Preferably, the third filter material and the fourth filter material are each surrounded by a nonwoven fabric and accommodated in the housing.

Preferably, between the second inlet and the third filter material, a pretreatment filter in which a ceramic and silica are mixed and stacked in a 50:50 ratio is further provided to remove impurities in the raw water passing through the second inlet. It features.

Preferably, a carbon block filter is further provided between the fourth filter material and the second outlet so as to have a cylindrical shape disposed inside the housing at a predetermined distance from the housing, so that the raw water has passed through the fourth filter material. It is characterized by removing impurities.

The filtration device for removing calcification and minerals according to the present invention includes a function of removing impurities and removing heavy metals, as well as a function of decomposing solid calcite components into physical changes and replacing ions with minerals. It is a complex and highly efficient filtration device that also includes ion filtration to lead to activation.

1 shows a first housing 10 of a filtration device for descaling and mineral generation according to one embodiment of the invention,
2 shows a filtration apparatus 100 for descaling and mineral generation according to an embodiment of the present invention,
Figure 3 shows a filtration apparatus 200 for descaling and mineral generation according to an embodiment of the present invention,
4 illustrates a state in which the filtration apparatus 100 for descaling and mineral generation and the filtration apparatus 200 for descaling and mineral generation are continuously connected according to an embodiment of the present invention.
FIG. 5 is a photograph showing a representative state of raw water from which calcification has been removed according to an experimental example of the present invention. FIG. 5A, 5B, 5C, 5D, 5E, and 5F show photographs showing a representative state of raw water according to each experimental example. Shown.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the filtration apparatus for descaling and minerals production according to the present invention. In this process, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of description. In addition, terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to the intention or convention of a user or an operator. Therefore, the definitions of these terms should be made based on the contents throughout the specification.

<Examples>

1 shows a first housing 10 of a calcification removal and mineral generation filtration apparatus according to an embodiment of the present invention, Figure 2 is a calcification removal and mineral generation filtration apparatus according to an embodiment of the present invention ( 100).

1 and 2, the filtration apparatus 100 for descaling and mineral generation according to an embodiment of the present invention may include a first housing 10, a first filter material 20, and a second filter material 30. ).

The first housing 10 is a hollow cylindrical shape, and has a first inlet 11 through which raw water is introduced and a first outlet 12 through which filtered raw water is discharged.

The first filter material 20 exists in the interior of the housing 10, and primarily serves to remove calcite present in raw water passing through the first inlet 11 and to generate minerals.

At this time, the first filter material 20 preferably contains 40% by weight of the soft rock, 21 to 23% by weight of the soil, 19% by weight of diatomaceous earth, 12 to 13% by weight of amethyst and 5 to 8% by weight of feldspar.

Meanwhile, the first filter material 20 may be manufactured in the form of chips of various shapes such as spherical or square, and the first filter material 20 in the form of chips may be surrounded by the nonwoven fabric 21 to enclose the housing 10. It will be accommodated in, the diaphragm 22 on one side, the first filter cap 23 is located on the other side.

The second filter material 30 is present in the housing 10, and serves to remove the calcification existing in the raw water passing through the first filter material 20 and to generate minerals.

At this time, the second filter material 30 preferably comprises 40 to 45% by weight of mordenite, 19% by weight of precious stones, 17 to 19% by weight of volcanic stones, 11 to 15% by weight of quartz and 7 to 8% by weight of catalyst. .

On the other hand, the second filter material 30 may be manufactured in the form of chips of various shapes, such as spherical or square, the chip-shaped second filter material 30 is surrounded by a nonwoven fabric 31 is the housing 10 It will be accommodated in, the diaphragm 32 on one side, the second filter cap 33 is located on the other side.

The diaphragm nonwoven is positioned between the first filter cap 23 and the diaphragm 32, and the diaphragm nonwoven is attached by ultrasonic welding.

The first filter material 20 and the second filter material 30 in the form of chips containing these various compositions can be used to achieve a total pressure rise and to effectively remove solids such as calcification.

The filtration apparatus 100 for descaling and mineral generation according to an embodiment of the present invention may further include a pretreatment filter 40 and a ceramic block filter 50.

The pretreatment filter 40 may be provided between the first inlet 11 and the first filter material 20. The pretreatment filter 40 is a mixture of ceramic and silica in a 50:50 ratio and is stacked to remove impurities in the raw water passing through the first inlet 11.

The ceramic block filter 50 may be provided to the second filter material 30 and the first outlet 12. The ceramic block filter 50 is disposed in a cylindrical shape within the housing 10 at a predetermined distance from the housing 10, and serves to remove impurities in raw water passing through the second filter material 30.

One side of the ceramic block filter 50 is combined with the diaphragm 52 in which the insertion groove is formed so that the ceramic block filter 50 may be inserted and positioned, and the second filter cap 33 and the diaphragm 52 are formed. The diaphragm nonwoven is positioned between them, and the diaphragm nonwoven is attached by ultrasonic welding.

Due to this configuration, the raw water introduced through the first inlet 11 is 1) impurities are filtered by the pretreatment filter 40, 2) the calcite existing in the raw water while passing through the first filter material 20 At the same time the minerals are produced. 3) The calcite existing in the raw water is once again removed while passing through the second filter material 30, and minerals are generated. 4) Impurities in the raw water are filtered by the ceramic block filter 50.

The filtration apparatus 100 for descaling and minerals generation according to an embodiment of the present invention includes a descaling and minerals generation including a second housing 110, a third filter material 120, and a fourth filter material 130. It may be continuously connected to the filtration device 200.

Figure 3 shows a calcification removal and mineral generation filtration device 200 according to an embodiment of the present invention, Figure 4 is a calcification removal and mineral generation filtration device 100 and calcite according to an embodiment of the present invention The state in which the filtration device 200 for removal and mineral generation is continuously connected is shown.

The second housing 110 is a hollow cylindrical shape, the second inlet 111 through which the demineralized mineral water is introduced through the first housing 10 and the mineral-generated water is introduced, and the second outlet through which the filtered raw water is discharged ( 112 is formed.

The third filter material 120 is present inside the second housing 110 and primarily serves to remove calcite present in the raw water passing through the second inlet 111 and to generate minerals.

At this time, the third filter material 120 comprises 38 to 40% by weight of diatomaceous earth, 18 to 21% by weight of weak soil, 17 to 19% by weight of tincture, 12 to 14% by weight of quartz and 10 to 11% by weight of catalyst. desirable.

Meanwhile, the third filter material 120 may be manufactured in the form of chips of various shapes such as spherical or square, and the third filter material 120 of the chip shape is surrounded by the nonwoven fabric 121 to form a second housing ( 110 is accommodated, the diaphragm 122 on one side, the third filter cap 123 is located on the other side.

The fourth filter material 130 is present in the second housing 110, and serves to remove the calcification existing in the raw water passing through the third filter material 120 and to generate minerals.

At this time, the fourth filter material 130 is 40 to 43% by weight of feldspar, 18% by weight of precious stones, 14 to 17% by weight of volcanic stone, 13% by weight of amethyst, 7 to 8% by weight of mordenite and 4 to 5% by weight of active agent. It is preferable to include.

Meanwhile, the fourth filter material 130 may be manufactured in the form of chips of various shapes such as spherical or square, and the fourth filter material 130 of the chip shape may be surrounded by the nonwoven fabric 131 to form the second housing ( 110 is accommodated, the diaphragm 132 on one side, the fourth filter cap 133 is located on the other side. In addition, the diaphragm nonwoven is positioned between the third filter cap 123 and the diaphragm 132, and the diaphragm nonwoven is attached by ultrasonic welding.

Using the second filter material 120 and the fourth filter material 130 in the form of chips containing such various compositions, it is possible to increase the overall pressure and to effectively remove the solids such as calcification.

The filtration apparatus 200 for descaling and mineral generation according to an embodiment of the present invention may further include a pretreatment filter 140 and a carbon block filter 150.

The pretreatment filter 140 may be provided between the second inlet 111 and the third filter material 120. The pretreatment filter 140 is a mixture of ceramic and silica in a 50:50 ratio and is stacked to remove impurities in the raw water passing through the second inlet 111.

The carbon block filter 150 may be provided between the fourth filter material 130 and the second outlet 112. The carbon block filter 150 is disposed in a cylindrical shape within the second housing 110 at a predetermined distance from the second housing 110, and removes impurities in raw water passing through the fourth filter material 130. Do this.

One side of the carbon block filter 150 is combined with the diaphragm 152 in which the insertion groove is formed so that the carbon block filter 150 may be inserted and positioned, and the fourth filter cap 133 and the diaphragm 152. The diaphragm nonwoven is positioned between them, and the diaphragm nonwoven is attached by ultrasonic welding.

Due to this configuration, the raw water introduced through the second inlet 111 is 1) impurities are filtered by the pre-treatment filter 140, 2) the calcareous existing in the raw water while passing through the third filter material 120 At the same time the minerals are produced. 3) The calcite existing in the raw water is once again removed while passing through the fourth filter material 130, and minerals are generated. 4) Impurities in the raw water are filtered by the carbon block filter 150.

On the other hand, to prove the effect of the first filter material, the second filter material, the third filter material and the fourth filter material used in the filtration device for descaling and minerals production according to an embodiment of the present invention as follows: The experiment was performed under.

Table 1 shows six composition ratios for the composition of the first filter material.



Composition ratio of the first filter material
% By weight Cheongi weakness Soil Diatomaceous earth amethyst feldspar Proportion sum
Primary 35 20 20 17 8 100 Secondary 37 23 17 13 10 100 3rd 40 23 19 13 5 100 4th 40 21 19 12 8 100 5th 45 23 15 10 7 100 6th 15 19 25 35 6 100

Table 2 shows six composition ratios for the composition of the second filter material.



Composition ratio of the second filter material
% By weight Mordenite Jewelry Volcanic stone quartz Catalyst Proportion sum
Primary 7 35 11 19 28 100 Secondary 15 17 23 27 18 100 3rd 20 20 20 20 20 100 4th 35 23 21 17 4 100 5th 40 19 19 15 7 100 6th 45 19 17 11 8 100

Table 3 shows six composition ratios for the composition of the third filter material.



Composition ratio of the third filter material
% By weight Diatomaceous earth Soil Cheongi weakness quartz Catalyst Proportion sum
Primary 30 25 20 17 8 100 Secondary 33 27 17 13 10 100 3rd 36 24 19 13 8 100 4th 38 21 19 12 10 100 5th 40 18 17 14 11 100 6th 45 19 19 11 6 100

Table 4 shows six composition ratios for the composition of the fourth filter material.



Composition ratio of the fourth filter material
% By weight feldspar Jewelry Volcanic stone amethyst Mordenite Active agent Proportion sum
Primary 31 21 19 17 7 5 100 Secondary 34 23 17 13 11 2 100 3rd 37 19 13 17 9 5 100 4th 40 18 17 13 7 5 100 5th 43 18 14 13 8 4 100 6th 45 17 16 11 8 3 100

The descaling performance of the first water, the second filter material, the third filter material, and the fourth filter material was tested for descaling the raw water over a total of 1,296 times.

1) The descaling performance of the raw water was tested for a total of 216 times by changing the composition ratio of the second filter material, the third filter material and the fourth filter material based on the primary composition ratio of the first filter material. At this time, a photograph showing a typical state of the raw water from which the decalcification was removed is shown as (1) to (6) in FIG. 5A.

2) Based on the secondary composition ratio of the first filter material, the descaling performance of the raw water was tested for a total of 216 times by changing the composition ratio of the second filter material, the third filter material and the fourth filter material. At this time, a photograph showing a typical state of the raw water from which the decalcification was removed is shown as (7) to (12) in FIG. 5B.

3) The descaling performance of the raw water was tested for a total of 216 times by changing the composition ratios of the second filter material, the third filter material, and the fourth filter material based on the third composition ratio of the first filter material. At this time, a photograph showing a typical state of the raw water from which the decalcification was removed is shown as (13) to (18) in FIG. 5C.

4) The descaling performance of the raw water was tested for a total of 216 times by changing the composition ratio of the second filter material, the third filter material and the fourth filter material based on the fourth filter material composition ratio. At this time, a photograph showing a typical appearance of the raw water from which descaling was shown as (19) to (24) in FIG. 5D.

5) The descaling performance of the raw water was tested for a total of 216 times by changing the composition ratios of the second filter material, the third filter material, and the fourth filter material based on the fifth filter ratio of the first filter material. At this time, a photograph showing a typical state of the raw water from which descaling was shown as (25) to (30) in FIG. 5E.

6) Based on the sixth component ratio of the first filter material, the descaling performance of the raw water was tested for a total of 216 times by changing the composition ratio of the second filter material, the third filter material, and the fourth filter material. At this time, a photograph showing a representative state of the raw water from which the decalcification was removed is shown as (31) to (36) in FIG. 5F.

According to the experimental results, the third to fourth order composition ratios of the first filter material, the fifth to sixth order ratios of the second filter material, the fourth to fifth order ratios of the third filter material, and the fourth to fourth order materials of the fourth filter material It can be seen that the optimal descaling function can be performed on the raw water in the case of the fifth composition ratio.

That is, the first filter material includes 40% by weight of Cheonggyejak, 21 to 23% by weight of clay, 19% by weight of diatomaceous earth, 12 to 13% by weight of amethyst, and 5 to 8% by weight of feldspar, and the second filter material is mordenite. It was found that the descaling effect of raw water was the best when it included 40 to 45% by weight, gemstone 19% by weight, volcanic stone 17-19% by weight, quartz 11-15% by weight and catalyst 7-8% by weight.

In addition, the third filter material comprises 38 to 40% by weight of diatomaceous earth, 18 to 21% by weight of weak soil, 17 to 19% by weight of natural weakness, 12 to 14% by weight of quartz and 10 to 11% by weight of a catalyst, and the fourth filter Material is decalcified against raw water when it contains 40 to 43% by weight of feldspar, 18% by weight of precious stone, 14 to 17% by weight of volcanic stone, 13% by weight of amethyst, 7 to 8% by weight of mordenite and 4 to 5% by weight of active agent. The effect was found to be the best.

As mentioned above, although the present invention has been illustrated and described with reference to specific embodiments, the present invention is not limited thereto, and the following claims are not limited to the scope of the present invention without departing from the spirit and scope of the present invention. It can be easily understood by those skilled in the art that can be modified and modified.

Claims (8)

A first housing having a first inlet through which raw water is introduced and a first outlet through which filtered raw water is discharged;
A first filter material present in the housing and capable of removing minerals and generating minerals present in raw water passing through the first inlet; And
And a second filter material present in the housing and capable of removing minerals and generating minerals present in the raw water passing through the first filter material.
The first filter material includes 40% by weight of Cheongi, 21-23% by weight of clay, 19% by weight of diatomaceous earth, 12-13% by weight of amethyst, and 5-8% by weight of feldspar,
The second filter material is characterized in that it comprises 40 to 45% by weight of mordenite, 19% by weight of precious stones, 17 to 19% by weight of volcanic stones, 11 to 15% by weight of quartz and 7 to 8% by weight of catalyst.
Filtration device for descaling and mineral production.
The method of claim 1,
Wherein the first filter material and the second filter material are each enclosed by a nonwoven fabric and received within the housing,
Filtration device for descaling and mineral production.
The method of claim 1,
Between the first inlet and the first filter material,
A pretreatment filter, which is a mixture of ceramic and silica in a 50:50 ratio, is further provided to remove impurities in the raw water passing through the first inlet.
Filtration device for descaling and mineral production.
The method of claim 1,
Between the second filter material and the first outlet,
And a ceramic block filter disposed in a cylindrical shape within the housing at a predetermined distance from the housing to remove impurities in the raw water passing through the second filter material.
Filtration device for descaling and mineral production.
The method according to any one of claims 1 to 4,
A second housing having a second inlet through which the lime is removed and the mineral-generated raw water is introduced through the first housing, and a second outlet through which the filtered raw water is discharged;
A third filter material present in the housing and capable of removing minerals and generating minerals present in the raw water passing through the second inlet; And
And a fourth filter material present in the housing and capable of removing minerals from the raw water passing through the third filter material and generating minerals.
The third filter material comprises 38 to 40% by weight of diatomaceous earth, 18 to 21% by weight of weak soil, 17 to 19% by weight of Cheonkiseok, 12 to 14% by weight of quartz and 10 to 11% by weight of a catalyst.
The fourth filter material is characterized in that it comprises 40 to 43% by weight of feldspar, 18% by weight of gemstone, 14 to 17% by weight of volcanic stone, 13% by weight of amethyst, 7 to 8% by weight of mordenite and 4 to 5% by weight of active agent. Made,
Filtration device for descaling and mineral production.
The method of claim 5,
Wherein the third filter material and the fourth filter material are each surrounded by a nonwoven fabric and received within the housing,
Filtration device for descaling and mineral production.
The method of claim 5,
Between the second inlet and the third filter material,
A pretreatment filter, which is a mixture of ceramic and silica in a 50:50 ratio, is further provided to remove impurities in the raw water passing through the second inlet.
Filtration device for descaling and mineral production.
The method of claim 5,
Between the fourth filter material and the second outlet,
A carbon block filter is further provided in a cylindrical shape within the housing at a predetermined distance from the housing, to remove impurities in the raw water passing through the fourth filter material.
Filtration device for descaling and mineral production.
KR1020100042327A 2009-11-06 2010-05-06 Filtering device for removing lime and producing mineral KR20110050342A (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103910433A (en) * 2014-03-21 2014-07-09 大连海洋大学 Tower-type clam worm biofilter
KR101454613B1 (en) * 2013-11-01 2014-10-27 이세영 Sterilization and far infrared rays and negative ions emitted dispenser
KR101528469B1 (en) * 2014-01-13 2015-06-12 김영식 Water filters for cold and hot water dispensers

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
KR101454613B1 (en) * 2013-11-01 2014-10-27 이세영 Sterilization and far infrared rays and negative ions emitted dispenser
KR101528469B1 (en) * 2014-01-13 2015-06-12 김영식 Water filters for cold and hot water dispensers
CN103910433A (en) * 2014-03-21 2014-07-09 大连海洋大学 Tower-type clam worm biofilter

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