KR101478188B1 - Carbon block filter for becoming an alkaline water - Google Patents

Abstract

The alkaline water producing carbon block filter according to the present invention comprises: a carbon block 67 having a hollow 69 penetrating through the center; And a plurality of alkali particles (65) installed in the hollow (69). According to the present invention, not only the water taste is good due to the function of the carbon block 67 but also the alkaline water containing various minerals can be obtained by the action of the alkali particles 65. The pH of the alkaline water may be about 8 to 10, and in some cases about 14, through the appropriate selection of the alkali particles 65, and it may be used for medical use. In some cases, various functional materials may be added to the alkali particles 65 to obtain effects such as antibacterial action, far infrared ray emission effect, anion release effect, and water taste improvement.

Description

[0001] The present invention relates to a carbon block filter for an alkaline water-

The present invention relates to a carbon block filter, and more particularly to a carbon block filter capable of generating alkaline water.

Water is a must for life. However, it is not desirable for the human body to drink water directly because organic wastes or minerals are harmful to the human body due to environmental pollution. In recent years, even the tap water coming into the home has been consumed through the purification process. In particular, as interest in health increases, there is a growing demand for water that contains substances that are beneficial to the human body, rather than simply harmless water.

However, conventional reverse osmosis (RO) filters and hollow fiber filters (UF filters) merely function as water purification functions, but they do not have the function of specifically providing the beneficial minerals to the human body.

Alkaline water has been reported to be desirable for improving chronic diarrhea, indigestion, division and intestinal fermentation by affecting gastrointestinal tract such as stomach, small intestine and colon. In particular, the improvement of abnormal fermentation in the intestines is a very important effect that can inhibit the occurrence of cancer due to bacterial growth of the colon. In addition, objective data on various diseases such as antioxidation, liver protection, hangover relief, obesity suppression, diabetes, constipation improvement, melamine biotreatment, hyperlipidemia improvement, and atopic dermatitis have been reported.

In particular, studies of cholesterol lowering are important results indicating that alkaline water can affect fat metabolism, which is a major complication of adult disease. In recent years, pre-clinical tests of melamine ingestion, which is a social problem, have confirmed that drinking alkaline water increases melamine excretion in the living body and keeps weight and immunity close to normal. Therefore, it is necessary to provide alkaline water for antioxidation to people whose constitution is acidic, and it is also necessary to provide alkaline water for health to people with normal body constitution.

Despite the availability of alkaline water, the conventional water purification system has a problem in that since the tap water supplied to the household has a pH of about 6.5 to 7.5, the reverse osmosis filter rather acidifies the water and the hollow fiber filter can hardly change the pH of tap water. Filters are limited in their utility. For medical purposes, the pH of the alkaline water should be about 8 to 10, and in some cases it should be about 14. For such medical purposes, the conventional reverse osmosis filter or hollow fiber membrane filter is almost useless .

Therefore, it is necessary to incorporate an alkali catalyst into a conventional filter vessel to produce alkaline water. The present invention was born under this very concept.

Accordingly, it is an object of the present invention to provide a method for producing alkaline water containing minerals useful in the human body, such as calcium, magnesium, potassium, etc., To provide a carbon block filter. The carbon block filter according to the present invention can be very usefully incorporated in a conventional filter container.

According to an aspect of the present invention, there is provided an alkaline water-

A carbon block having a hollow through the center thereof; And

And an alkali member installed in the hollow.

The alkali member may include a plurality of alkali particles.

The alkali component may be obtained by mixing the carbon component, the binder, and the alkali particles together and then heat-pressing or hot-extruding the mixture in the form of a disk.

It is preferable that both ends of the hollow are clogged by the water-permeable film so that the alkali particles can not escape from the hollow.

It is preferable that the carbon block and the alkali particles are contained together in a storage case in which a through hole having a size smaller than that of the alkali particles is formed so that the alkali particles can not escape from the hollow.
The carbon block filter may be contained in a storage case in which a through hole having a size smaller than that of the alkali particles is formed.

The water-permeable film may be a nonwoven fabric.

The alkali particles may be installed in the hollow while being contained in a storage case in which a plurality of through holes having a size smaller than that of the alkali particles are formed.

The plurality of alkali particles may be formed into a rod-shaped mass and installed in the hollow.

It is preferable that the alkali particles have a diameter of 0.01 to 10 mm.

It is preferable that at least one of the carbon block and the alkali particle contains calcium sulfite (CaSO ₃ ) or silver (Ag).

The alkali particles may comprise an alkali or an alkaline earth metal. The alkali particles may be at least one selected from the group consisting of silicon oxide, aluminum oxide, iron oxide, phosphorous pentoxide, zirconium oxide, oxidized tartan oxide, silver oxide, And may further include at least one of magnesium, coral, pulp fossil, feldspar, carbon, coconut, clay, kaolin, antimicrobial material, resin stream, anion material, zircon, rare earth material, and soda ash or a combination thereof.

When the alkali particles are magnesium particles, it is preferable that the surface of the magnesium particles is coated with silica, carbon, or silver.

The alkali member may be in the form of a rod or a bullet-like bulk instead of the molded body of the alkali particles. It is preferable that the bulk type alkaline member comprises magnesium or magnesium itself.

According to the present invention, alkaline water containing various minerals can be obtained not only by the function of carbon but also by the action of alkali particles. Specifically, it is possible to increase alkaline minerals, increase total dissolved solids (tds), increase pH, increase hydrogen to remove active oxygen, reduce orp (oxidation reduction potential), and increase sterilizing and washing function.

The pH of the alkaline water may be about 8 to 10, and in some cases, about 14, depending on the selection of the alkali particles. By adding various functional materials to the alkali particles, effects such as antibacterial action, far infrared ray emission effect, anion emission effect, and water taste improvement can be obtained.

Alkaline water is not only beneficial to the human body as a beverage but also has a sterilizing function and has an effect of reducing the use of detergents and the like because it is excellent in washing and washing functions in fruits, vegetables, machinery, washing dishes, laundry, As described above, the alkaline water producing filter according to the present invention is applicable to various fields such as home, medical, industrial, and special use regardless of the size, where alkaline water is required.

1 is a view for explaining a carbon block filter 60 according to a first embodiment of the present invention;
2 is a view for explaining a carbon block filter 60 according to a second embodiment of the present invention;
3 is a view for explaining a carbon block filter 60 according to a third embodiment of the present invention;
4 is a view for explaining a carbon block filter 60 according to a fourth embodiment of the present invention;
5 is a flow chart for explaining a manufacturing process of the carbon block filter 60 according to the present invention;
6 is a view for explaining a bidirectional straight hollow fiber membrane filter to which the alkaline water generating carbon filter 60 according to the present invention is applied;
7 is an internal sectional view of Fig.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The following embodiments are merely provided to understand the contents of the present invention, and those skilled in the art will be able to make many modifications within the technical scope of the present invention. Therefore, the scope of the present invention should not be construed as being limited to these embodiments.

1 is a view for explaining a carbon block filter 60 according to a first embodiment of the present invention. Referring to FIG. 1, a hollow 69 is formed in the carbon block 67 and a plurality of alkali particles 65 are installed in the hollow 69. Both ends of the hollow 69 are blocked by the water-permeable film 68 so that the alkali particles 65 can not escape from the hollow. The water-permeable film 68 may be fine as long as it has fine through-holes through which water and minerals can pass, while preventing the alkali particles 65 from escaping. For example, the water-repellent film 68 may be a nonwoven fabric or a mesh.

It is difficult to block only the both ends of the hollow 69 with the water permeable film 68. Therefore, it is practically preferable to cover both ends of the carbon block 67 with the water permeable film 68. [ This case is shown in Fig.

2 is a view for explaining a carbon block filter 60 according to a second embodiment of the present invention. 2, the carbon block 67 and the alkali particles 65 (not shown) are attached to the storage case 61 in which the micro through holes 61a are formed such that the alkali particles 65 in the hollow 69 do not escape from the hollow 69. [ ) Can be contained together. As in the case of the water-permeable film 68, the storage case 61 here is not limited to the mesh type, but may include water (eg, non-woven fabric) and the like .

3 is a view for explaining a carbon block filter 60 according to a third embodiment of the present invention. As shown in Fig. 3, the alkali particles 65 can be installed in the hollow 69 while being contained in the storage case 61. Fig.

4 is a view for explaining a carbon block filter 60 according to a fourth embodiment of the present invention. As shown in Fig. 4, the alkali particles 65 are not simply gathered, but these particles can be formed into a rod-shaped mass and installed in the hollow 69. Fig.

The carbon block 67 not only removes iron, rust, etc., but also improves the water taste. The alkali particles 65 are for artificially introducing mineral components to obtain alkaline water.

Alkaline particles (65) contain minerals that can make hydrogen in contact with water and convert water to alkaline. Representative examples are alkali or alkaline earth metals such as magnesium (Mg), calcium (Ca), sodium (Na), potassium (K) Magnesium reacts with water as shown in Reaction 1 below.

[Reaction Scheme 1]

M + 2H ₂ O - > M ^{2 +} + 2OH ^- + H ₂ , where M = alkali or alkaline earth metal

The hydroxide (OH ^- ) formed in this way makes the water alkaline, properly attached to the surface of magnesium and the like. At the same time, hydrogen (active hydrogen) formed at the same time gives water the ability to eliminate active oxygen, the source of all diseases. Water from ordinary tap water or water purifier has a redox potential of +200 mV to +500 mV, but the water with active hydrogen produced in this way has a negative redox potential.

In order to impart antimicrobial action, far infrared ray emission effect, anion emission effect, water taste improving effect and the like to water, the alkali particles 65 may contain at least one selected from the group consisting of silicon oxide, aluminum oxide, iron oxide, phosphorous pentoxide, zirconium oxide, Zirconium, rare earth metals, zircon, rare earth metals, zirconium, rare earth metals, zirconium, rare earth metals, zirconium, rare earth metals, Materials, and soda ash, and the like.

The alkali particles 65 are in the form of powder, granule, or ball, and the alkali particles 65 need to be introduced into the hollow 69 after the water that has flowed into the carbon block 67, It is preferable that the porosity by the alkali particles 65 is larger than the porosity of the carbon block 67. [ If the porosity of the alkali particles 65 is too large, the substantial surface area of the alkali particles 65 becomes small, which is not preferable.

When the alkali particles 65 are magnesium particles, it is preferable that the surfaces of the magnesium particles are coated with silica, carbon, silver (Ag) or the like. Since magnesium reacts rapidly with water, it is necessary to delay such a sudden reaction to form a coating layer like this. In addition, magnesium is water and when the reaction when this MgOH ₂ to be MgOH ₂ is created, formed a film on the surface of the magnesium particles, the magnesium particles and water, the reaction was further as described above to the surface of the magnesium particles in order to avoid this because it is not in progress Thereby forming a coating layer. Carbon is for improving the water taste, and silver is for imparting an antifungal function.

When the water flowing into the carbon block 67 flows into the hollow 69 and escapes through the alkali particles 65, a suitable porosity to sufficiently contact the alkali particles 65 without any bottleneck Is required. In consideration of this, it is preferable that the alkali particles 65 have a diameter of 0.01 to 10 mm.

The carbon block 67 has a great influence on the improvement of the water taste. The most important factors that influence the taste of the water are minerals and dissolved oxygen, the most common being detected by our tongue is goat. This chlorine can be removed by the carbon block 67. However, the function of removing chlorine is greatly deteriorated at a temperature of about 35 캜 in the carbon block 67. Therefore, it is preferable that calcium sulfite (CaSO ₃ ) or silver (Ag) is contained in at least one of the carbon block (67) and the alkali particles (65) so that chlorine can be removed even at a high temperature. Silver is for imparting an antibacterial function.

The carbon block 67 may have a ring shape as described above, but may have a disk shape (Embodiment 5). At this time, the carbon block 67 can be obtained by mixing the carbon component together with the binder and the alkali particles, and then heat-pressing or hot-extruding the mixture in the form of a disk.

5 is a flowchart for explaining a manufacturing process of the carbon block filter 60 according to the present invention. Referring to FIG. 5, charcoal or activated carbon powder, calcium sulfite (CaSO ₃ ) powder or silver (Ag) powder is mixed with a binder and mixed (S 10). At this time, it is preferable that the ratio of the charcoal or activated carbon is 50 to 60 wt%, the binder is 20 to 30 wt%, and the calcium sulfite or silver (Ag) is 10 to 30 wt%. If the binder is too large, there may be too little void in the carbon block 67, so it is preferable to set the amount of the binder appropriately. Next, it is pressurized in the mold to form a hollow ring shape (S20). Subsequently, the mold is charged into the heat treatment furnace as a whole and fired in a temperature range of 130 to 260 ° C. (S30). Then, the fired body in the mold is taken out to the outside and cut to a proper size (S40). Finally, a ceramic ball 65 as described with reference to Figs. 1 to 3 is installed in the hollow (S50). The carbon block 67 may be manufactured by the hot extrusion molding method instead of the heating and pressing method.

FIG. 6 is a view for explaining a bidirectional straight hollow fiber membrane filter to which the alkaline water producing carbon block filter 60 according to the present invention is applied, and FIG. 7 is an internal sectional view of FIG. 6.

Referring to FIGS. 6 and 7, the outer case 10 has a hollow cylindrical shape and includes a body 10a and a cap 10b. The front end of the body 10a is provided with the outlet port 11 and the rear end thereof is blocked by the stopper 10b formed with the inlet port 12. [

The filter case (20) is installed in the case (10). The filter case 20 is composed of a body 20a and a plug 20b. The body 120a has a cylindrical shape with a front end and a rear end opened, and the stopper 20b is installed to close the rear end of the body 20a. A plurality of through holes 21 are formed in the plug 20a.

An O-ring 30 is fitted to the outer surface of the filter case body 20a so that a gap between the filter case 20 and the outer case 10 is blocked. The water introduced through the inlet 12 is discharged to the outlet 11 through the inside of the filter case 20 due to the installation of the O-ring 30. It is preferable that the O-rings 30 are provided in a plurality of layers so that the filter case 20 is fixed without being shaken.

The hollow fiber membrane filter (50) is installed inside the filter case (20). The hollow fiber membrane filter 50 is formed by bundling a plurality of hollow fiber membranes, and the ends of the fiber membranes are gathered on the front side of the filter case 20 so as to face the outlet port 11, .

The carbon block filter (60) is installed between the hollow fiber membrane filter (50) and the outlet port (11). Although the case where the carbon block filter 60 is installed outside the filter case 20 is shown in the drawing, it may be located inside the filter case 20 depending on the situation.

The water purification process will be described as follows. The water supplied to the inlet 12 flows into the inside of the filter case body 20b through the through hole 21 formed in the filter case cap 20b and then passes through the hollow fiber filter 50 and the carbon block filter 60 And is discharged to the outside through the outlet 11 sequentially. As a result, alkaline minerals are further added to the water that has passed through the hollow fiber filter 50, and the water is discharged to the outside through the outlet 11.

The alkaline water generating carbon block filter 60 according to the present invention may be installed depending on the hollow fiber membrane filter 50 as shown in FIG. 6 to function, but it may be installed independently to perform functions. When the alkaline water generating carbon block filter 60 is installed depending on the other filter, the other filter is not limited to the hollow fiber membrane filter 50.

The alkaline water-producing carbon block filter 60 according to the present invention may be provided with an alkali member in a hollow shape (rod or block shape) instead of alkali particles or a molded body thereof in the hollow of the carbon block 67. It is preferable that the bulk of the alkaline member contains magnesium or magnesium itself.

As described above, according to the present invention, not only the water taste is good due to the function of the carbon block 67, but also the alkaline water containing various minerals can be obtained by the action of the alkali particles 65. The pH of the alkaline water may be about 8 to 10, and in some cases about 14, through the appropriate selection of the alkali particles 65, and it may be used for medical use. In some cases, various functional materials may be added to the alkali particles 65 to obtain effects such as antibacterial action, far infrared ray emission effect, anion emission effect, and water taste improvement.

Alkaline water is not merely useful as a non-alcoholic beverage but has a sterilizing function. It has an effect of reducing the use of detergents and the like because it is excellent in washing and washing functions in fruit, vegetable, machine, dishwasher, laundry, shower and the like. As described above, the alkaline water producing filter according to the present invention is applicable to various fields such as home, medical, industrial, and special use regardless of the size, where alkaline water is required.

10: External case
10a: outer case body
10b: external case plug
11: Outlet
12: Receipt
20: Filter case
20a: Filter case body
20b: Filter case cap
30: O ring
50: Hollow fiber filter
60: Carbon block filter
61: storage case
61a: Through hole
65: alkali particles
68: Permeable membrane
69: hollow

Claims (16)

A carbon block having a hollow through the center thereof; And
And a plurality of alkali particles disposed in the hollow,
Wherein the carbon block and the alkali particles are contained together in a storage case in which a through hole having a size smaller than that of the alkali particles is formed so that the alkali particles can not escape from the hollow. delete delete delete delete delete A carbon block having a hollow through the center thereof; And
And a plurality of alkali particles disposed in the hollow,
Wherein the alkali particles are provided in the hollow while being contained in a storage case in which a plurality of through holes having a size smaller than that of the alkali particles are formed. delete  The alkaline water-producing carbon block filter according to claim 1 or 7, wherein the alkali particles have a diameter of 0.01 to 10 mm. The alkaline water-producing carbon block filter according to claim 1 or 7, wherein calcium sulfite (CaSO ₃ ) or silver (Ag) is contained in at least one of the carbon block and the alkali particles. delete The alkaline water-producing carbon block filter according to claim 1 or 7, wherein the alkali particles comprise an alkali or an alkaline earth metal. The alkaline water-producing carbon block filter according to claim 1 or 7, wherein the alkali particles are magnesium particles, and the surfaces of the magnesium particles are coated with silica, carbon, or silver. The method according to claim 12, wherein the alkali particles are selected from the group consisting of silicon oxide, aluminum oxide, iron oxide, phosphorus pentoxide, zirconium oxide, oxidized tartan, silver oxide, zinc oxide, hafnium oxide, yttrium oxide, calcium carbonate, calcium oxide, Characterized in that it comprises at least one of magnesium, magnesium oxide, coral, fossil feldspar, feldspar, carbon, coconut, clay, kaolin, antimicrobial material, resin stream, anion material, zircon, rare earth material, Generated carbon block filter. delete delete

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