KR20180128248A - Block type antibacterial filter and method of manufacturing tongue type antibacterial balls - Google Patents

Abstract

The present invention relates to a method for manufacturing an antibacterial filter for a water purifier and an antibacterial ball, and more particularly, to a method for manufacturing a block type antibacterial filter and a regular globular type antibacterial ball, which can fundamentally prevent bacteria from being generated in a water storage tank storing water, and can provide a stable water purification performance and an antibacterial function having persistence. The method for manufacturing a block type antibacterial filter comprises the steps of: (a) preparing activated carbon powder by mixing 65 to 90 wt % of activated carbon of 150 mesh and 10 to 35 wt % of PP binder powder; (b) preparing metal mineral powder mixed with 2 to 8 wt % of silver consisting of powder of 250 mesh, 8 to 12 wt % of copper, 40 to 60 wt % of zinc, 2 to 8 wt % of titanium, and 20 to 40 wt % of magnesium; (c) preparing a raw material by mixing 65 wt % of the mixed activated carbon powder in the step (a) and 35 wt % of the metal mineral powder in the step (b); (d) molding a block type antimicrobial filter in a hollow cylinder shape using the prepared mixed raw material to have fine pores formed therein; and (e) calcining the molded block type antimicrobial filter in a furnace at 150 to 200° C.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a block type antibacterial filter and a method of manufacturing a tongue type antibacterial ball,

The present invention relates to an antibacterial filter for a water purifier and a method for producing the antibacterial ball, and more particularly, to an antibacterial filter for a water purifier, To a block type antibacterial filter and a method for manufacturing a torsion type antibacterial ball.

Generally, Korea does not supply groundwater to tap water as it is in Switzerland or France in Europe. Instead, it supplies surface water to tap water. Therefore, tap water in Korea is inevitably exposed to environmental pollution. As a result, the majority of consumers use water purifiers to get clean and clean drinking water, drinking water, or beneficial reduced water.

 The commonly popularized water purification method is a method of filtering out simple polluted impurities and harmful substances, and a method of diluting nanoized silver (Ag) ion material with water and immersing activated carbon in diluted water for 6 hours or more And a method of forming a filter with aseptic synthetic zeolite ore powders is used. However, this method is a method in which a mixture of powder selected from an optically polished pearl and clay mineral is used as a filter, The bacterial problem caused by the oxidation of water is not considered.

For example, the oxidation of water caused by various chemical substances in the purification and purification process and carbon dioxide (CO 2) in the atmosphere until the tap water is supplied as drinking water and domestic water, increases the turbidity of the water and generates the bacteria form very quickly.

On the other hand, a filter having a structure in which components having unique functions are sequentially laminated in relation to a filter for a water purifier is disclosed in Korean Patent Laid-Open No. 10-2007-0007979.

However, the laminated filter can leach water between the stacked gaps of the filter due to the high water pressure in the process of passing the water through the outflow port and does not make even contact with water and thus does not utilize both the water purification function and the reduction function of the filter There is a problem that can not be done. In addition, the filter formed of the laminated structure has a problem that the duration is relatively short and the manufacturing process is inconvenient because the filter has a low persistence.

Therefore, it is possible to use a water purification system that uses antimicrobial filters to enhance the antioxidant function of water and enhance the antimicrobial activity of water, and a filter that enables safe water purification and long-term preservation of water by setting an environment as an antibacterial ball in a water- .

Patent Document: Published Patent No. 10-2007-0007979 (Published Date: Jan. 17, 2007)

It is an object of the present invention to overcome the above-described drawbacks of the prior art, and it is an object of the present invention to provide an antibacterial filter which is capable of enhancing antioxidant function and enhancing antimicrobial activity of water, To provide a block type antibacterial filter and a method of manufacturing a tongue-shaped antibacterial ball which enable safe water performance and long-term preservation of water.

Another object of the present invention is to provide a block-type antibacterial filter and a method for manufacturing a horn-type antibacterial ball, which can prevent the generation of bacteria in a storage tank in which water is stored.

Another object of the present invention is to provide a block-type antibacterial filter and a method for manufacturing a torsionally-shaped antibacterial ball which are capable of imparting an antibacterial function having stable water performance and durability.

Another object of the present invention is to provide an antibacterial filter having a stable sterilizing power by selectively mixing metal mineral materials having a high antibacterial activity and a high energy level, and a block type antibacterial filter and a method for manufacturing a tapered antibacterial ball.

The present invention also relates to a block type antibacterial filter and a tungsten antibacterial filter which are capable of simultaneously fusing a function and performance for causing water having a high oxidizing power to be displaced to water having enhanced reducing power to have persistence of water resonance (wavelength and wave) And a method of manufacturing the same.

In order to accomplish the above object, the present invention provides a method of producing a block-type antibacterial filter, comprising the steps of mixing 65 to 90% by weight of 150 mesh activated carbon with 10 to 35% by weight of PP binder powder to prepare an activated carbon powder, 2 to 8 wt% of copper, 8 to 12 wt% of copper, 40 to 60 wt% of zinc, 2 to 8 wt% of titanium and 20 to 40 wt% of magnesium was prepared, and 65 wt% %, And 35% by weight of a metal mineral powder were mixed to prepare a raw material. The block-type antibacterial filter was formed into a hollow cylindrical shape so as to form fine pores in the mixed raw material, To < RTI ID = 0.0 > 200 C. < / RTI >

Further, in the method for producing a block-type antibacterial filter according to the present invention, the block-type antibacterial filter is molded by putting the raw materials prepared by mixing into a cylindrical mold and compressing.

In the method for producing a block-type antibacterial filter according to the present invention, the raw materials for mixing are put into a screw-type compression molding machine equipped with an electric hot wire and compressed to form a block-type antibacterial filter.

In order to accomplish the above object, the present invention provides a method for preparing a hornblock-type antibacterial ball, comprising: preparing 35 to 45 wt% of tourmaline powder and 55 to 65 wt% of clay mineral powder comprising loess or clay to prepare a clay powder, A seed ball having a size of 0.5 to 0.8 mm is formed and dried by spraying water while injecting a certain amount of water into the drum, and the molded and dried seed ball is placed in a rotating drum and 2 to 8% by weight of silver made of 250 mesh powder, The metal mineral powder mixed with 12 wt% of zinc, 40 to 60 wt% of zinc, 2 to 8 wt% of titanium and 20 to 40 wt% of magnesium was sprayed with water in a predetermined amount to form a tungsten antibacterial ball having a size of 1 to 25 mm And the formed spherical antibacterial balls were fired in indirect heating at 950 ° C to 1030 ° C in a sintering furnace.

According to the block type antibacterial filter of the present invention and the method of manufacturing a tapered type antibacterial ball, silver (Ag), copper (Cu), zinc (Zn), titanium (Ti), magnesium (Mg) To provide an antimicrobial raw material, to provide an antimicrobial filter through which an antimicrobial filter can be strengthened to enhance the antioxidant function of water, and an antimicrobial ball environment in a water storage tank in which water is stored. There is an effect that long-term preservation can be realized.

In addition, it is possible to block the generation of bacteria in the reservoir tank in which water is stored, to provide a stable water purification performance and an antimicrobial function with persistence, to selectively mix metal mineral materials having high antibacterial activity and high energy level, It is possible to produce an antibacterial filter and an antibacterial ball having a force.

In addition, it has the effect of simultaneously fusing the functions and performance that have persistence of water resonance (wave and wave) phenomenon and antioxidant power by dislocating highly oxidative water to water with enhanced reducing power.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a reference diagram showing a block-type antibacterial filter manufactured according to the method of the present invention.
Fig. 2 is a reference view showing a tongue-shaped antibacterial ball manufactured according to the manufacturing method of the present invention.
FIG. 3 is a cross-sectional view showing various uses of a block type antibacterial filter and a torsional type antibacterial ball according to the present invention.

Hereinafter, the technical structure of the present invention will be described in detail with reference to the accompanying drawings.

The method for producing a block type antibacterial filter according to the present invention comprises the steps of: (a) preparing activated carbon powder by mixing 65 to 90% by weight of 150 mesh activated carbon with 10 to 35% by weight of PP binder powder; (b) a metal mineral powder mixed with 2 to 8% by weight of silver made of 250 mesh powder, 8 to 12% by weight of copper, 40 to 60% by weight of zinc, 2 to 8% by weight of titanium and 20 to 40% Preparing; (c) preparing a raw material by mixing 65 wt% of the mixed powder of the activated carbon (a) and 35 wt% of the metal mineral powder of (b); (d) shaping the block-type antibacterial filter 10 into a hollow cylindrical shape so as to form fine pores therein; (e) firing the molded block-type antibacterial filter 10 at a temperature of 150 ° C to 200 ° C in a sintering furnace.

The block antibacterial filter manufacturing method of the present invention thus manufactured will be described step by step as follows.

(a) Step - Making Activated Carbon Powder

65 to 90% by weight of activated carbon composed of 150 mesh powder and 10 to 35% by weight of PP binder powder are mixed to produce an activated carbon powder. If the mixing ratio of the PP binder powder is more than 35 wt%, the porosity of the antibacterial filter is greatly decreased. When the mixing ratio of the PP binder powder is less than 10 wt%, the binding force with the activated carbon is decreased, The durability of the filter is deteriorated.

Step (b) - Step of making metal mineral

A metal mineral powder mixed with 2 ~ 8 wt% of silver, 250 ~ 2000 wt% of silver, 8 ~ 12 wt% of copper, 40 ~ 60 wt% of zinc, 2 ~ 8 wt% of titanium and 20 ~ 40 wt% of magnesium is prepared. At this time, the silver, copper, and zinc provide an antibacterial raw material, and the titanium increases the photocatalytic function so as to have a stable antimicrobial activity in any environment, and the magnesium generates hydrogen when it reacts with water.

(c) Step-Making the mixed raw material

65 wt% of the activated carbon powder mixed in step (a) and 35 wt% of the metal mineral powder mixed in the step (b) are mixed to prepare a raw material. If the activated carbon powder is used in an amount of less than 65 wt%, porosity of the antibacterial filter is lowered. If the metal mineral powder is used in an amount of less than 35 wt%, the antibacterial function of the antibacterial filter can not be sufficiently achieved.

(d) forming a block-type antibacterial filter

the block-type antibacterial filter 10 is formed into a hollow cylindrical shape so that fine pores are formed in the raw material mixed in the step (c). At this time, since the block type antibacterial filter 10 has a hollow cylindrical shape and has a multi-porous structure of a minute size, the contact area with water due to a large number of minute pores formed on the surface and inside of the block type antibacterial filter 10 And uniform contact with water is achieved, so that the amount of purified water per unit time is remarkably increased. In addition, it is much lighter and more elastic than other conventional filters having the same volume due to a number of fine pores, and can withstand even a high water pressure. On the other hand, due to the fine pores, the water molecule structure forms a dense molecular structure (cluster), and by reducing the linewidth, which is the frequency band causing resonance in water molecules, the strong radiant energy of the spin field or rotating electromagnetic wave increases the surface tension of the water Sterilization power is increased and bacterial growth is fundamentally blocked.

The size of the hollow hollow cylindrical antibacterial filter 10 is shaped to various sizes for use.

(e) a step of baking the block-type antibacterial filter

the block type antibacterial filter 10 molded into a hollow cylindrical shape in step (d) is fired at a temperature of 150 to 200 ° C in a firing furnace to produce a block type antibacterial filter 10.

According to an embodiment of the present invention, the step (d) is characterized in that the block-type antibacterial filter 10 is molded by putting the mixed raw material into a cylindrical molding die and compressing the same.

According to another embodiment of the present invention, in the step (d), the block-type antibacterial filter 10 is formed by inserting the mixed raw materials into a screw type compression molding machine equipped with an electric hot wire and compressing.

(A) preparing clay powder by mixing 35 to 45% by weight of tourmaline powder and 55 to 65% by weight of clay mineral powder comprising loess or white clay; (b) shaping and drying a seed ball having a size of 0.5 to 0.8 mm by spraying water while injecting a certain amount of the clay powder into a rotary drum machine; (c) The shaped and dried seed ball is placed in a rotary drum and 2 to 8 wt% of silver, 250 to 200 wt% of silver, 8 to 12 wt% of copper, 40 to 60 wt% of zinc, 2 to 8 wt% of titanium, To 40% by weight of a metal mineral powder is sprayed with water while injecting a predetermined amount of metal mineral powder to form a uniform spherical antibacterial ball 20 having a size of 1 to 25 mm; (d) firing the formed spherical antibacterial balls 20 at an indirect heat of 950 ° C to 1030 ° C in a sintering furnace.

The method of manufacturing a torsionally-wounded antibacterial ball of the present invention thus manufactured will be described in detail as follows.

(a) Step - Making Clay Powder

35 to 45% by weight of tourmaline powder, and 55 to 65% by weight of clay mineral powder comprising loess or white clay are mixed to prepare a clay powder. When the tourmaline powder is used in an amount of less than 35 to 45% by weight, the antibacterial ball can not sufficiently attain its original filtering function. When the tourmaline powder is used in an amount of less than 55 to 65% by weight, Or a catalytic function can not be expected.

The tourmaline is a very fine porous mineral which has strong physical adsorption and absorption power and has a high chemical substitution effect. Such tourmaline catalyzes the reaction by reacting magnesium with water to act as a catalyst in the process of producing hydrogen. At this time, when the tourmaline is mixed with clay minerals composed of clay or clay, far-infrared radiation function and catalytic performance can be obtained.

(b) - step of forming and drying the seed ball

The clay powder mixed in step (a) is injected into a rotating drum machine while spraying water to form a seed ball having a size of 0.5 to 0.8 mm, and the formed seed ball is dried with hot air.

(c) Step - molding the spherical antibacterial balls

the seed ball molded and dried in step (b) is placed in a rotating drum and 2 to 8 wt% of silver, 250 to 200 wt% of copper, 8 to 12 wt% of copper, 40 to 60 wt% of zinc, 2 to 8 wt% of titanium, 20 to 40% by weight of the metal mineral powder is injected in a predetermined amount, and water is sprayed thereon to form a spherical antibacterial ball 20 having a size of 1 to 25 mm. At this time, the size of the tongue-like antibacterial balls 20 may be 1 to 25 mm in size depending on the application.

(d) - Step of firing a tapered antibacterial ball

The tongue-like antibacterial balls 20 formed in the step (c) are fired at 950 ° C to 1030 ° C indirectly in a sintering furnace to prepare spherical antibacterial balls.

Here, FIG. 1 shows a block type antibacterial filter 10 manufactured according to the manufacturing method of the present invention, and the block type antibacterial filter 10 of the present invention is manufactured in various sizes depending on the use as shown in FIG.

FIG. 2 shows a horn type antibacterial ball 20 manufactured according to the manufacturing method of the present invention. The horn type antibacterial ball 20 of the present invention has a spherical shape as shown in FIG.

FIG. 3 is a diagram showing the use state of the block type antibacterial filter 10 and the tapered type antibacterial ball 20 according to the present invention. The block type antibacterial filter 10 and the tapered type antibacterial ball 20 of the present invention are used for a water purifier And is housed in the filter housing (30). At this time, according to the present invention, the block type antibacterial filter 10 and the tapered type antibacterial balls 20 can be independently incorporated into the filter housing 30, An antibacterial ball 20 may be embedded.

According to the present invention, a material having a high energy level among metal minerals has higher antimicrobial activity and oxidation inhibition performance. In particular, silver (Ag) is an antimicrobial raw material having high direct sterilizing power, and copper (Cu) having high energy conduction is also a raw material having strong antibacterial power. In addition, zinc (Zn) has antimicrobial activity due to reduction as a high oxidation inhibiting material, while magnesium (Mg) increases the oxidation-reduction potential by the production of hydrogen (H) ) To produce a strong antibacterial activity.

According to the present invention, the titanium (Ti) metal powder having high catalytic function is mixed with the antibacterial raw material according to the characteristics of the material, so that the photocatalytic function is increased and the antibacterial power is stabilized in any environment.

According to the present invention, when the block type antibacterial filter 10 and the tapered type antibacterial balls 20 are molded and fired with the natural ore accumulated in the sun for several billions of years, the amount of far-infrared radiation is increased. Particularly, according to the present invention, by applying the principle that an extremely superior far-infrared ray radiator is made of an alloy material of a metal mineral, silver (Ag), copper (Cu), and zinc (Zn) materials having high energy level and high anti- (Ti) material and pure magnesium (Mg) are simultaneously mixed to provide an antibacterial raw material.

The block-type antibacterial filter 10 of the present invention is prepared by mixing the above-mentioned mixed antibacterial raw material with 150-mesh activated carbon powder and PP binder powder to prepare a mixed raw material, putting it into various cylindrical molds of filter size, A method of producing a block type antibacterial filter 10 by putting it in a sintering furnace, and a method of putting the mixed raw material into a screw type compression molding machine equipped with an electric hot wire, Molded by means of a mold, and then put into a baking furnace to produce a block-type antibacterial filter (10).

The spherical antibacterial balls 20 of the present invention are prepared by drying the mixed clay powder with a seed ball having a size of 0.5 to 0.8 mm and then injecting the seed ball into a rotating drum, spraying water in a spray form, The powder is added into a uniform antimicrobial ball having a size of 1 to 25 mm and the molded antimicrobial ball is fired at 950 to 1030 ° C in a baking furnace to produce a uniform antimicrobial ball 20 have.

In the present invention, natural ores have been irradiated with solar rays for billions of years, and far-infrared ray radiators are large. Particularly, titanium (Ti) materials having a high photocatalytic power including silver (Ag), copper (Cu), and zinc (Zn) which are high in energy level and belonging to antimicrobial metal minerals have strong antibacterial power, to be. Therefore, magnesium (Mg) material makes the oxidation potential of water to oxidation potential (oxidation reduction potential) by lowering the surface tension of water, so that the bacteria can keep the property that can not be inhabited.

What is emphasized in the present invention is that all objects have a negative charge (-e) and a positive charge (+ e), and these two electrons form alternating charges in a trigonometric function.

This makes the π-ray bond, in which the atoms or molecules provide electrons to create a closed shape and perform a reciprocating resonance motion. It expresses a rotating electromagnetic wave (π-ray) that rotates in the form of a material wave. Finally, the pylay coupling is a concept of alternating charge, which means a strong energy action.

The above-mentioned rotating electromagnetic wave (? -Ray) is created and acts in a quantized state from a large wavelength band to an infinitely small wavelength.

In the antimicrobial metal mineral having a high energy level according to the present invention, electrons having negative charge and positive electric charge are degenerated and separated to generate rotating electromagnetic waves, resulting in strong resonance (wavelength and wave) phenomenon.

In addition, far-infrared radiation by metal minerals generates strong energy to lower the surface tension (Hz) of water to generate a strong wave band along with a rotating electromagnetic wave (π-ray) It causes perforations in amino acids to give sterilizing power. Recently, the wavelength band of the far-infrared emitter and the rotating electromagnetic wave has the ability to sterilize the harmful bacteria, and it has been applied to various bacterial industries such as the water pipe production using this.

The present invention has a high flow rate of 2 m to 3 m per second when the water pressure is maintained at an average pressure of 2 kg / cm 2 to 3 kg / cm 2. In order to reflect this, a filter is formed as a block type antibacterial filter 10 so as to permeate the flow path of the water through the filter into a maze, thereby widening the contact area with the water. The tapered antibacterial ball 20 also has a multi- It is produced by the ball and has a rapid ion substitution function, so it can enhance the water purification effect.

Table 1 below shows the test results of the five types of strains tested by the Korean Environmental Water Research Institute with the block type antibacterial filter of the present invention formed by mixing the antibacterial metal mineral raw materials.

Test Items unit result Remarks Dispenser Number of passes Removal rate (%) Escherichia coli CFU / ml 3.7 x 10³ 1.5 x 10² 95.9 - Staphylococcus aureus CFU / ml 5.3 x 10³ 4.1 x 10² 92.2 - P. aeruginosa CFU / ml 2.1 x 10³ 1.7 x 10² 91.9 - Salmonella CFU / ml 1.9 x 10³ 1.1x 10² 94.2 - Shugelera CFU / ml 1.4 x 10³ 88 93.7 -

ㅇ Sample name: Block type antibacterial filter

o Test method: Pour Plate Method

※ Test condition (customer provided): After passing 100 L of preparation water (10 ³ CFU / mL) to the supplied sample,

※ Water pressure: 2Kgf / ㎠

※ Test environment: Culture temperature: (35 ± 0.5 ℃) Humidity: (45 ± 5% RH)

Table 2 below shows the test results of the five types of strains tested with the tungsten antibacterial balls of the present invention molded from the antimicrobial metal mineral compound raw materials at the Korea Environmental Water Research Institute.

Test Items unit result Remarks Dispenser After 3 hours
(Removal rate) After 6 hours
(Jagger rate) Escherichia coli CFU / ml 3 800 31
(99.2%) Non-detection
(100%) - Staphylococcus aureus CFU / ml 1 100 9
(99.2%) Non-detection
(100%) - Salmonella CFU / ml 1 600 15
(99.1%) Non-detection
(100%) - Shugelera CFU / ml 1 900 16
(99.2%) Non-detection
(100%) - P. aeruginosa CFU / ml 2 200 21
(99.0%) Non-detection
(100%) -

ㅇ Sample name: 8A-18 Antibacterial balls

o Test method: Pour Plate Method

※ Test condition (customer supplied): 100 g of sample supplied in 1L of preparation water (± 10 ³ CFU / mL), sealed, left for a certain time, collected and analyzed.

Accordingly, the present invention provides antibacterial raw materials by mixing silver (Ag), copper (Cu), zinc (Zn), titanium (Ti), and magnesium (Mg) having high energy levels and high antibacterial activity among metal minerals, The water purification method is based on an antimicrobial filter that can enhance the inhibition function and enhance the antibacterial ability and the environment of the antibacterial ball is set in the water storage tank in which the water is stored.

The present invention also provides a method for screening a metal mineral material having high antimicrobial activity and high energy level, which can prevent the generation of bacteria in a storage tank in which water is stored, can provide a stable water purification performance and an antimicrobial function with persistence, The antibacterial filter having a stable sterilizing power and the antibacterial ball can be manufactured.

The present invention has the advantage of simultaneously fusing the function and performance for bringing persistence of water resonance (wavelength and wave) phenomenon and antioxidant power by dislocating water having high oxidizing power to water having enhanced reducing power.

10: Block type antibacterial filter
20: Tungsten antibacterial filter
30: Filter housing

Claims (4)

(a) preparing an activated carbon powder by mixing 65 to 90% by weight of 150 mesh activated carbon with 10 to 35% by weight of PP binder powder;
(b) a metal mineral powder mixed with 2 to 8% by weight of silver made of 250 mesh powder, 8 to 12% by weight of copper, 40 to 60% by weight of zinc, 2 to 8% by weight of titanium and 20 to 40% Preparing;
(c) preparing a raw material by mixing 65 wt% of the mixed powder of the activated carbon (a) and 35 wt% of the metal mineral powder of (b);
(d) shaping the block-type antibacterial filter into a hollow cylindrical shape so that fine pores are formed in the mixed preparation raw material;
and (e) firing the molded block-type antibacterial filter in a baking furnace at 150 ° C to 200 ° C. [6] The method of claim 1, wherein the step (d) comprises molding a block-type antibacterial filter by putting the mixed raw material into a cylindrical mold and compressing the raw material. [6] The method of claim 1, wherein the step (d) comprises: placing a raw material for mixing in a screw type compression molding machine equipped with an electric hot wire, and compressing the block type antibacterial filter to form a block type antibacterial filter. (a) 35 to 45% by weight of tourmaline powder, and 55 to 65% by weight of clay mineral powder composed of loess or clay to prepare a clay powder;
(b) shaping and drying a seed ball having a size of 0.5 to 0.8 mm by spraying water while injecting a certain amount of the clay powder into a rotary drum machine;
(c) The shaped and dried seed ball is placed in a rotary drum and 2 to 8 wt% of silver, 250 to 200 wt% of silver, 8 to 12 wt% of copper, 40 to 60 wt% of zinc, 2 to 8 wt% of titanium, To 40% by weight of a metal mineral powder; injecting water while injecting the metal mineral powder in an amount of 1 to 25 mm to form a spherical antibacterial ball having a size of 1 to 25 mm;
(d) firing the formed spherical antibacterial balls in an indirect heat treatment at 950 ° C to 1030 ° C in a sintering furnace.

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