KR102435483B1 - Oral hygiene water manufacturing device - Google Patents

Abstract

The invention provided by the present application relates to a device for producing oral hygiene water, and to a device for providing antibacterial magnetized electrolyzed water.
Specifically, the oral hygiene water production device provided by the present application includes an electrolysis device for generating hydrogen-reduced water and free radicals by electrolyzing water, a control unit and a power source electrically connected thereto; a composite filter including a connection of a composite filter filled with a mixture of antibacterial material and carbon to enhance antibacterial and sterilizing power and to increase reducing power and water purification performance; It is equipped with a magnetized water generator that provides magnetized electrolyzed water with enhanced antibacterial and sterilization function and anti-oxidative substance generation by fusion of the N-pole magnetic principle for the clustering of water molecular structure.
Accordingly, the invention provided by the present application provides an oral hygiene water manufacturing device that can implement both the functions of an oral irrigator and an oral rinsing solution by having a change in physical properties suitable for oral hygiene water from tap water or groundwater used in daily life. do.

Description

Oral hygiene water production device {ORAL HYGIENE WATER MANUFACTURING DEVICE}

The invention provided by the present application relates to an oral hygiene water production apparatus, and specifically, by electrolyzing raw water provided from tap water or groundwater to maximize hydrogen (H) and hydroxide ion (OH ^- ) material production. An electrolysis device for generating reduced water by redox potential action and free radicals with high antibacterial activity (or free radicals), a controller and an adapter electrically connected thereto; It is a composite filter that combines natural antibacterial material and carbon to strengthen the safe function of oral hygiene water. composite filter; A magnetized water generating device that provides antibacterial magnetized electrolyzed water with enhanced antibacterial and antibacterial properties and enhanced antibacterial and sterilization functions by realizing the magnetization function by providing N-pole magnetic force to minimize the molecular structure of water. It relates to an oral hygiene water production device comprising.

The device for producing oral hygiene water provided by the present application provides oral hygiene water by installing it around a washbasin in a bathroom, etc. in a manner directly connected to a pipe, electrolyzing tap water or groundwater, enhancing and magnetizing antibacterial and reducing power, Oral hygiene water prepared by oral hygiene water has properties suitable for use as rinsing water after brushing, and not only removes bacteria and plaque in the mouth, but also various gum diseases such as tooth decay, oral inflammatory diseases, bacterial It has an effect of preventing or treating diseases and diseases caused by cellular oxidation in the oral cavity, helping to restore the original healthy gums.

The device for producing oral hygiene water provided by the present application is effective for sanitary water with enhanced antibacterial and sterilizing power, sanitary water capable of reducing cells and generating antioxidant substances, and/or plaque removal according to the improvement of surface activity. It relates to a device for providing sanitary water.

In general, a method for cleaning the mouth is divided into brushing teeth using toothpaste, gargling using mouthwash, and pressure spraying of rinsing water using an oral irrigator.

However, in the case of conventional brushing, the degree of cleaning is different depending on the method of using the toothbrush, and the gums are easily damaged. In addition, gargles using mouthwash simply have the effect of removing bad breath and removing microscopic bacteria, but the cumulative use of chemicals contained in the mouthwash causes side effects such as discoloration of teeth or dry mouth. . In addition, the scrubber that pressure sprays rinsing water can remove foreign substances or plaque between teeth, teeth, and between teeth and gums with strong water pressure and fast flow rate, but the rinsing water provided at this time does not have antibacterial activity, so it is difficult to remove bacteria. no effect That is, the above-listed oral cleaning methods have a problem in that the prevention of tooth decay, the removal of bad breath, the prevention of gingivitis and periodontitis, and the removal of plaque are not combined.

Looking at the prior art in this field, Patent Publication No. 10-2007-0041639 (published date: April 18, 2007) relates to an antioxidant method and antioxidant functional water, and specifically "catalyst that is a noble metal colloid in hydrogen dissolved water. By accelerating the reaction of decomposing molecular hydrogen as a substrate contained in the hydrogen-dissolved water into active hydrogen as a product through the process of reacting with An antioxidant method that puts the subject in a reduced state in which electrons are satisfied." The prior art promotes the reaction of decomposing molecular hydrogen as a substrate contained in hydrogen-dissolved water into active hydrogen as a product through the process of reacting a catalyst to the hydrogen-dissolved water. It relates to an antioxidant method that can put an antioxidant target that is in an oxidation state due to a deficiency or wants to defend against oxidation into a reduced state in which the former is satisfied.

However, the prior art is a technology for a hydrogen repressure treatment method for the treatment of a patient's disease (eg, diving sickness), and the partial pressure ratio of hydrogen:oxygen:nitrogen in the recompression chamber is 1 in a state in which the patient is placed in the recompression chamber. : Treats the affected area by gradually increasing and depressurizing the air pressure in the recompression chamber while maintaining the ratio of 2:7 to ensure that the hydrogen contained in the biological fluid (hydrogen dissolved water) and the catalyst sent in advance are given to the affected area through the patient's lung respiration or skin respiration When the hydrogen generated in the prior art is mixed with water, an effect that is helpful for oral health care according to the present application cannot be expected.

Publication No. 10-2007-0041639

In order to provide safe and perfect oral hygiene water that is helpful for oral health management, it is necessary to develop an oral care device useful not only to remove bacteria and plaque, but also to manage gum health. Specifically, the development of an electrolysis device and filter capable of maximizing the generation of hydrogen and hydroxide ions by decomposing water with electrolysis technology and generating free radical substances with strong sterilization power, and devices that maintain the physical properties of oral hygiene water development should take precedence.

The invention provided by the present application electrolyzes raw water provided from tap water or groundwater to produce hydrogen and hydroxide ions and free radicals, and then, in a composite filter combining natural metal minerals and carbon, antioxidant substances are strengthened and stabilized water purification performance It provides water suitable for oral hygiene water by having

In addition, the invention provided by the present application provides oral hygiene water by fusing "electrolysis technology" and "natural filter method" to generate sanitary water mixed with antioxidants by antibacterial and sterilization functions and reducing power from raw water. do.

In addition, the invention provided by the present application is to simultaneously configure the magnetization function of the N pole that can minimize the molecular structure of water and have a surfactant action, thereby strengthening the durability of antibacterial and sterilizing power and the preservation of electrolyzed water generation to restore original healthy gums. Provides antioxidant water to restore.

In addition, the invention provided by the present application provides a device for generating antioxidant water by reducing power having an antibacterial and sterilizing function, so that the tap water close to life has a change in physical properties as oral hygiene water, resulting in dental caries and periodontal disease (gingivitis) , periodontitis), etc., while helping to prevent and provide a device for generating oral hygiene water with enhanced surfactant power.

The invention provided by the present application is an electrolysis unit 100 including an electrolysis device 10 , a first filtration unit 200 including a first composite filter 70 and In the oral hygiene water production device (1) consisting of a magnetized water generating device (80) , the electrolysis unit (100) is connected to the supply pipe (3) for introducing raw water into the electrolysis device (10), the supply pipe (3), , an electrolysis device 10 installed to generate electrolyzed water by electrolyzing the raw water provided from the supply pipe 3 , and connected to the electrolysis device 10 , and the electrolyzed water from the electrolysis device 10 includes an outlet pipe 4 through which is discharged; The first filtration unit 200 is connected to the outlet pipe 4 and the first transfer pipe 2 to introduce an inlet connector 77 and the inlet connector 77 for introducing the electrolyzed water into the first composite filter 70 . ) and installed to filter the electrolyzed water provided from the inlet connector 77 to generate antibacterial electrolyzed water, the first composite filter 70 filled with a natural metal mineral material and activated carbon mixture ( 70), and a discharge connector 78 connected to the first composite filter 70 and through which the antibacterial electrolyzed water is discharged from the first composite filter 70; and the magnetized water generating device 80 is connected to the discharge connector 78 and the second transfer pipe 7 to introduce the antibacterial electrolyzed water into the third transfer pipe 3, the inlet fitting 88 , the inlet fitting ( 88), a third transfer pipe 8 for transferring the antibacterial electrolyzed water provided from the inlet fitting 88, and a magnet 85 surrounding the third transfer pipe 8, which applies magnetic force to the antibacterial electrolyzed water. A magnet 85 capable of generating antibacterial magnetized electrolyzed water by providing it, and a discharge fitting 89 that is connected to the third transfer pipe 8 and discharges the antibacterial magnetized electrolyzed water generated in the third transfer pipe 3 . ) provides an oral hygiene water production device comprising a.

At this time, the first composite filter 70 forms a hollow part 75 in which the antibacterial ball 76 is filled in the central part, and a carbon block 74, a nano antibacterial film 73 and a wrinkle set 72 from the inside. It provides an oral hygiene water production device comprising a. At this time, the first composite filter 70 provides an oral hygiene water production apparatus further comprising a case tube (71).

At this time, the carbon block 74 of the first composite filter 70 is activated carbon powder mixed with activated carbon and PP binder powder; And silver, copper, zinc, titanium and magnesium as a mixture of a metal mineral powder, characterized in that the tube form having a hollow portion (75), it provides an oral hygiene water production device.

At this time, the metal mineral mixed in the carbon block 74 of the first composite filter 70 is based on 100% by weight of the metal mineral powder, silver 2-8% by weight, copper 10-20% by weight, zinc 30 It provides an oral hygiene water production device, characterized in that it consists of a metal mineral powder mixed with ~ 40% by weight, titanium 2 ~ 8% by weight, and magnesium 35 ~ 45% by weight.

The invention provided by the present application is an oral hygiene water production device, characterized in that it further comprises a second filtration unit, wherein the second filtration unit includes a filtration filter , and the filtration filter is connected to the supply pipe (3) and , The filtration filter provides raw water, and the raw water provided by the filtration filter provides an oral hygiene water production device, characterized in that the tap water or groundwater is filtered to remove impurities.

The invention provided by the present application is an oral hygiene water production apparatus, characterized in that it further comprises a second filter unit , wherein the second filter unit includes a second compound filter 300 , and the second compound filter 300 ) is connected to the supply pipe 3, the second composite filter 300 provides raw water, and the raw water provided by the second composite filter is filtered water with enhanced antibacterial activity by filtering tap water or groundwater. It provides an oral hygiene water production device comprising:

At this time, the second composite filter 300 is formed in a block shape of a hollow cylindrical structure by mixing zeolite, magnetite ore, tourmaline, and magnesium in the form of fine powder based on 100% by weight of the first water filter, and the zeolite 30 to 40% by weight, magnetite ore 15 to 25% by weight, tourmaline 20 to 30% by weight, and magnesium 15 to 25% by weight of a first water filter substantially comprising; Based on 100% by weight of the second water filter, elvan, zeolite, sodium feldspar, and phosphate minerals are mixed in the form of fine powder to form a hollow cylindrical block shape, the elvan stone 30 to 40% by weight, the zeolite 25 to 35% by weight, 20 to 30% by weight of the sodium feldspar, and a second water filter substantially containing 5 to 15% by weight of the phosphate mineral; And based on 100% by weight of the third water filter, zeolite, tourmaline, waste fossil and activated carbon are mixed in the form of fine powder to form a block shape of a hollow cylindrical structure, the zeolite 20 to 30% by weight, the tourmaline 10 to It provides an oral hygiene water production device comprising at least one selected from the group consisting of a third water filter substantially containing 20% by weight, 15 to 25% by weight of the waste fossil, and 35 to 45% by weight of the activated carbon.

As described above, the invention provided by the present application includes an electrolyzed water generator for generating hydrogen reduction and free radicals by electrolysis, a composite filter made of activated carbon and metal minerals capable of generating antibacterial and sterilizing power and hydrogen-reduced water, and N Provides an oral hygiene water production device that combines a magnetic water generator with enhanced surface activity by polar magnetism into one system, and supplies oral hygiene water from it to restore oral hygiene and sterilization functions and original healthy gums It is possible to provide antioxidant water by reducing power, and to change the properties of tap water close to oral hygiene water in everyday life is provided.

The effect of the oral hygiene water production device 1 according to the present application is to provide antibacterial and/or sterile water by combining the electrolyzed water generator, a composite filter made of activated carbon and metal minerals, and a magnetic water generator to provide antibacterial magnetized electrolyzed water. .

The effect of the oral hygiene water production device 1 according to the present application is to have the physical properties change with oral hygiene water using the oral hygiene water production device for tap water close to the daily life, so that the function of the oral rinse as well as the oral hygiene It is to enable rinsing water after brushing that is beneficial to bacteria removal, plaque removal and gum health.

1 shows a connection configuration of an electrolysis device, a second composite filter, and a magnetic water generating device of the oral hygiene water production device according to the present application.
Figure 2 shows a simplified configuration diagram of the installation of the electrolysis device of the content according to the present application.
Figure 3 shows an external view of the electrolysis device of the content according to the present application.
Figure 4 shows an exploded perspective view of the electrolysis device of the content according to the present application.
5 is a cross-sectional view of the first composite filter of the content according to the present application.
6 is a plan view showing the configuration of the first composite filter of the content according to the present application. At this time, the symbol is not shown.
7 shows an external view of the first composite filter of the contents according to the present application. At this time, the symbol is not shown.
8 shows an external view of a magnetized water generating device according to the present application.
9 is an exploded perspective view of the magnetized water generating device according to the present application.
10 is a plan cross-sectional view of the magnetized water generating device according to the present application.
11 shows the connection configuration of the second composite filter of the content according to the present application.
12 is Escherichia after 10 minutes after production and 30 minutes after production for the antibacterial magnetized electrolyzed water of the content according to the present application. It shows the antibacterial ability against coli .
13 shows the antibacterial ability of the antibacterial magnetized electrolyzed water according to the present application for 10 minutes after preparation and 30 minutes after the preparation against Staphylococcus aureus .
FIG. 14 shows antibacterial ability against Salmonella typhimurium after 10 minutes after preparation and 30 minutes after preparation for antibacterial magnetized electrolyzed water according to the present application.
15 shows Pseudomonas after 10 minutes after production and 30 minutes after production for antibacterial magnetized electrolyzed water of the contents according to the present application. It shows the antibacterial ability against aeruginosa .
Figure 16 shows the antibacterial ability of the antibacterial magnetized electrolyzed water according to the present application against Shigella sonnei after being left for 10 minutes after preparation and 30 minutes after preparation.

The device for producing oral hygiene water provided in the invention according to the present application provides antibacterial and/or sterilization functions and antioxidant water with reducing power to maintain healthy gums, and converts tap water or groundwater into oral hygiene water in daily life. It is oral hygiene water that is used as rinsing water for brushing teeth, stone, and liver, as well as simultaneous use of mouthwash by changing the

Hereinafter, the invention according to the present application will be described in detail based on the accompanying drawings.

1 shows the connection configuration of the electrolysis device, the first composite filter, and the magnetic water generating device included in the oral hygiene water production device according to the content according to the present application.

According to the contents according to the present application, the electrolysis unit 100 including the electrolysis device 10 , the first filter unit 200 including the first composite filter 70 and In the oral hygiene water production device (1) consisting of a magnetized water generating device (80) , the electrolysis unit (100) is connected to the supply pipe (3) for introducing raw water into the electrolysis device (10), the supply pipe (3), , an electrolysis device 10 installed to generate electrolyzed water by electrolyzing the raw water provided from the supply pipe 3 , and connected to the electrolysis device 10 , and the electrolyzed water from the electrolysis device 10 includes an outlet pipe 4 through which is discharged; The first filtration unit 200 is connected to the outlet pipe 4 and the first transfer pipe 2 to introduce an inlet connector 77 and the inlet connector 77 for introducing the electrolyzed water into the first composite filter 70 . ) and installed to filter the electrolyzed water provided from the inlet connector 77 to generate antibacterial electrolyzed water, the first composite filter 70 filled with a natural metal mineral material and activated carbon mixture ( 70), and a discharge connector 78 connected to the first composite filter 70 and through which the antibacterial electrolyzed water is discharged from the first composite filter 70; and the magnetized water generating device 80 is connected to the discharge connector 78 and the second transfer pipe 7 to introduce the antibacterial electrolyzed water into the third transfer pipe 3, the inlet fitting 88 , the inlet fitting ( 88), a third transfer pipe 8 for transferring the antibacterial electrolyzed water provided from the inlet fitting 88, and a magnet 85 surrounding the third transfer pipe 8, which applies magnetic force to the antibacterial electrolyzed water. A magnet 85 capable of generating antibacterial magnetized electrolyzed water by providing it, and a discharge fitting 89 that is connected to the third transfer pipe 8 and discharges the antibacterial magnetized electrolyzed water generated in the third transfer pipe 3 . ) is provided with an oral hygiene water production device (1) comprising a.

At this time, the electrolysis unit 100 is a power supply unit 6 that provides power to the electrolysis device 10, a power supply unit 6 including an AC adapter or a DC adapter, and the power supply unit 6 and the There is provided an oral hygiene water production device (1), characterized in that it further comprises a control unit (5) to be electrically connected to the electrolysis device (10) to be controlled.

The raw water may be tap water or groundwater.

The raw water may be tap water or groundwater filtered by the second filtration unit. The second filtration unit may be a filtration filter. At this time, the filtration filter may be connected to the supply pipe (3). The raw water provided by the filtration filter is filtered water from which impurities are removed by filtering tap water or groundwater.

The raw water may be tap water or groundwater filtered by the second filtration unit. The second filtering unit may be a second composite filter 300 . At this time, the second composite filter is connected to the supply pipe 3 , and the raw water provided by the second composite filter 300 is filtered water from which impurities are removed by filtration of tap water or groundwater, and antibacterial activity is enhanced.

In this case, the second composite filter may include a first water filter in which zeolite, magnetite ore, tourmaline, and magnesium are mixed in a fine powder form to form a hollow cylindrical block shape. At this time, the first water filter contains 30 to 40% by weight of the zeolite, 15 to 25% by weight of magnetite ore, 20 to 30% by weight of tourmaline, and 15 to 25% by weight of magnesium based on 100% by weight of the first water filter. The first water filter may be substantially included.

In this case, the second composite filter may include a second water filter in which elvan, zeolite, sodium feldspar, and phosphate minerals are mixed in a fine powder form to form a hollow cylindrical block shape. At this time, the second water filter is 30 to 40% by weight of the elvan stone, 25 to 35% by weight of the zeolite, 20 to 30% by weight of the sodium feldspar, and the phosphate mineral 5 based on 100% by weight of the second water filter It may be a second water filter substantially including 15% by weight to 15% by weight.

In this case, the second composite filter may include a third water filter in which zeolite, tourmaline, waste fossils, and activated carbon are mixed in the form of fine powder to form a hollow cylindrical block shape. In this case, the third water filter includes substantially 20 to 30% by weight of the zeolite, 10 to 20% by weight of the tourmaline, 15 to 25% by weight of the waste fossils, and 35 to 45% by weight of the activated carbon. can be

In this case, the second composite filter may include at least one selected from the group consisting of a first water filter, a second water filter, and a third water filter.

11 is a view showing the connection configuration of the first water filter of the oral hygiene water production apparatus according to the content according to the present application. Herein, the first water filter is described as an example, but the same description is also applied to the second and third water filters.

According to the content according to the present application, the first water filter 310; a filter inlet cap 320 coupled to one side of the first water filter to block the inner space of the cylindrical structure; a filter outlet cap 330 coupled to the other side of the first water filter and having a protruding outlet substantially communicating with the inner space of the cylindrical structure; A plurality of reduction catalyst balls 340 in the cylindrical interior of the first water filter; At least one layer of copper mesh is formed in the inner passage of the filter outlet cap, and a first water filter including a mesh mesh 350 having fine mesh mesh caps on both sides is provided.

The filter inlet cap 320 may include a first coupling member 322 facing the coupling surface with the first water filter 310 . The first coupling member 322 closes the coupling between the filter inlet cap 320 and the first water filter 310 so that the water introduced from the filter housing inlet cap is transferred to the filter inlet cap 320 and the first water filter 310 . ) so that it does not flow into the gap between The filter outlet cap 330 may include a second coupling member 334 at the protruding outlet 332 . The second coupling member 334 closely adheres the coupling between the protruding outlet 332 of the filter outlet cap 330 and the filter housing outlet cap (not shown), passes through the first water filter 310 and passes through the inner space. Make sure that the water that has flowed into the duct is discharged to the outside through the filter housing outlet cap without leaking.

In addition, at least one layer of copper mesh 352 is formed in the inner passage of the filter outlet cap 330 and may further include a mesh mesh 350 having mesh mesh caps 354 on both sides thereof. In this case, the copper mesh 352 may be formed in two layers to be substantially perpendicular to the direction of water flow. At this time, the copper mesh 352 serves to increase antibacterial activity.

In addition, the mesh caps 354 formed on both sides of the mesh network 350 are reduction catalyst balls stacked inside the first water filter 310 or the reduction layered inside the second and third water filters (not shown). It serves to effectively prevent the outflow of the catalyst ball to the outside of the filter outlet cap 330 .

According to an embodiment, the second coupling member 334 may be a circular rubber ring, but is not limited thereto.

The reduction catalyst ball may include any one or more selected from the group consisting of magnetite ore, silicon dioxide, iron oxide, elvan, calcium oxide, potassium oxide, sodium oxide, tourmaline, titanium and novaron.

A plurality of the reduction catalyst balls may have a stacked structure inside a cylindrical shape of the water filter.

The introduced raw water flows to the outside of the second composite filter, passes through the side of the water filter by high water pressure, flows into the inner space, and passes through the plurality of reduction catalyst balls stacked in the inner space of the water filter Then, it may flow out of the water filter through the filter outlet cap.

When the second composite filter includes the first water filter, the second water filter, and the third water filter, each of the first, second, and third water filters is coupled to one side of the cylindrical structure. A filter inlet cap for blocking the inner space, and a filter outlet cap coupled to the other side of the first, second, and third water filters and having a protruding outlet that communicates substantially with the inner space of the cylindrical structure, Any one or more of magnetite ore, magnesium, magnesium oxide, silicon dioxide, iron oxide, elvan, calcium oxide, potassium oxide, sodium oxide, tourmaline, titanium, and novaron is contained in the cylindrical interior of the first, second and third water filters. A plurality of reduction catalyst balls including After flowing out of the first, second and third water filters, it passes through the first, second and third water filters from the side by high water pressure and flows into the inner space, After passing through the plurality of reduction catalyst balls stacked in the inner space of the third water filter, it may flow out to the outside of the first, second, and third water filters through the filter outlet cap.

Figure 2 shows a simplified configuration diagram in which the electrolysis device 10 of the content disclosed in the present application is installed, Figure 3 shows an external view of the electrolysis device 10 of the content disclosed in the present application, Figure 4 is this It shows an exploded perspective view of the electrolysis device 10 of the content disclosed in the application.

The electrolysis device may further include a first case covered on the outside, but is not limited thereto.

At this time, the electrolysis device 10 is connected to the supply pipe 3 through which the raw water is introduced and the outlet pipe 4 from which the electrolyzed water is discharged, and electrolyzes the raw water flowing in through the supply pipe 3 to and an electrolysis device body 11 capable of generating electrolyzed water and discharging the electrolyzed water to the water outlet pipe 4, wherein the electrolysis device body 11 has an inlet 21 for introducing the raw water is formed As a lower case 20 , the lower case 20 having an inclined surface 24 so that a certain amount of the raw water is collected inside the lower case 20; an upper case 60 having a discharge port 63 for discharging the electrolyzed water; The first pole plate member 40 and the second pole plate member 50 installed between the lower case 20 and the upper case 60 to electrolyze the raw water flowing in through the inlet 21 to generate electrolyzed water. ; and a spacer 30 having a through hole 33 between the lower case 20 and the first electrode plate member 40, a coupling groove on the bottom surface, and a coupling protrusion 32 on the top, and installed one or more. An oral hygiene water production device (1) is provided, characterized in that it comprises.

At this time, the first electrode plate member 40 is formed in the same manner as the spacer 30, a first frame 41 having a first through hole 42 formed in the center; a first terminal 45 installed on one side of the first frame 41 by insert injection so that the power applied from the control unit 5 can be supplied to the first electrode plate 46; and a first installed in the first through hole 42 of the first frame 41 attached to the first terminal 45 by welding so that the raw water can be electrolyzed by the power applied from the control unit 5 . It includes a pole plate 46 , and the first frame 41 has a first coupling groove and a first coupling protrusion 43 formed thereon so as to be coupled to the bottom surface coupling groove of the second pole plate member 50 stacked thereon. There is provided an oral hygiene water production device (1), characterized in that.

At this time, the second electrode plate member 50 is formed in the same manner as the spacer 30, a second frame 51 having a second through hole 53 formed in the center; a second terminal 55 installed on one side of the second frame 51 by insert injection so as to supply the power applied from the control unit 5 to the second electrode plate 56; and a second attached to the second terminal 55 by welding to electrolyze the raw water by the power applied from the control unit 5 and installed in the second through hole 53 of the second frame 51 . It includes a pole plate 56 , and the second frame 51 has a second coupling protrusion ( 54) is provided, characterized in that the oral hygiene water production device (1) is formed.

At this time, the power supply unit 6 may be connected to commercial power or commercial power, and can be modified according to the invention. For example, the power supply unit 6 may include an AC adapter or a DC adapter, but is not limited thereto. Accordingly, the power supply unit 6 may include an AC/DC adapter as well as a battery.

In this case, the control unit 5 may have a printed circuit board (PCB) structure embedded therein, but is not limited thereto. The drawings provided by the present application illustrate, but are not limited to, a PCB.

The power supply unit 6 may be installed detachably from one side of the PCB. The power supply unit 6 is configured like a power supply unit coupled to the power tool to be coupled in a sliding form to apply power, or may be configured to be detachable by a separate fixing protrusion and a fixing button (not shown).

In addition, the power supply unit 6 may be of a rechargeable type, and a charging port may be installed on one side so that a connection jack of the power supply unit can be coupled thereto.

According to the content disclosed in the present application, the raw water flowing into the electrolysis device can be uniformly introduced in a predetermined amount by the pressure reducing valve installed in the supply pipe (3).

The electrolysis device 10 is an electrolysis device body 11 comprising a lower case 20 having an inlet 21 formed therein and an upper case 60 having an outlet 63 formed therein so as to generate electrolyzed water by electrolysis. may include.

The inlet 21 formed in the lower case 20 may be connected to the supply pipe 3 , and the outlet 63 of the upper case 60 may be connected to the water outlet pipe 4 .

A spacer 30, a first electrode plate member 40, and a first electrode plate (30) between the lower case 20 and the upper case 60 to generate electrolyzed water by electrolyzing the raw water flowing in through the inlet 21 46), the second electrode plate member 50 and the second electrode plate 56 may be installed.

A second pole plate member 50 may be installed between the upper case 60 and the first pole plate member 40 to generate electrolyzed water by electrolyzing raw water flowing in through the inlet 21 .

It is coupled to the through hole 33 and the bottom surface between the lower case 20 and the first electrode plate member 40 so that a certain amount of raw water flowing into the lower case 20 is collected inside the main body 11 of the electrolysis device. It has a groove and a coupling protrusion 32 on the upper portion, and one or a plurality of spacers 30 may be installed.

The lower case 20 has a lower case body with an open top, an inclined surface 24 formed therein, and a constant space formed therein, and an inlet 21 on one side so that raw water flows into the lower case 20 . ) can be formed.

A lower rim 22 having a plurality of coupling holes to which bolts are fitted and coupled may be formed on the upper surface of the outer periphery of the lower case 20 .

In addition, the lower case 20 is from the inner bottom surface toward the inner surface so that the raw water flowing in through the inlet 21 can be quickly filled into the place where the first electrode plate member 40 and the second electrode plate member 50 are located. The inclined surface 24 may be formed to be inclined.

The inclined surface 24 is formed to face the center of the inner bottom of the lower case 20, so that even if a small amount of raw water is introduced through the inlet 21, the first electrode plate member 40 and the second electrode plate member 50 It is quickly filled with the part where is located so that the electrolysis of the raw water can occur quickly.

The upper case 60 has a certain space formed inside in an open state, and the upper case 60 has an outlet so that the electrolysis generated by the first electrode plate 46 and the second electrode plate 56 is discharged on one side. (63) may be formed.

An upper rim 61 having a plurality of coupling balls to which bolts are fitted and coupled is formed around the outer periphery of the upper case 60, so that the first pole plate member 40, the second pole plate member 50, the spacer 30 and the lower part are formed. The main body 11 of the electrolysis device can be configured by fixing the rim 22 with a bolt.

Reinforcing ribs 62 in the form of a grid may be formed outside the upper case 60 to reinforce strength and improve durability.

The first pole plate member 40 is formed to have the same size as the spacer 30 to form a first frame 41 having a first through hole 42 formed in the center thereof, and at one side of the first frame 41 , A first step 44 may be formed so that the first electrode plate 46 may be positioned.

A first terminal 45 may be installed on one side of the first frame 41 for insert injection so that the power applied from the control unit 5 can be supplied to the first electrode plate 46 .

The first electrode plate 46 coupled by welding with the first terminal 45 so as to electrolyze raw water by the power applied from the control unit 5 is a first step 44 of the first frame 41 . can be installed on

The first electrode plate 46 may be installed to cover the entire first through hole 42 formed in the first frame 41 .

In addition, coupling grooves are formed on the lower surface of the upper edge 61 of the upper case 60 , the second frame 51 , the first frame 41 , and the lower surface of the edge of the spacer 30 , respectively. 3 The coupling protrusion 23, the coupling protrusion 32 of the spacer 30, the first coupling protrusion 43 of the first frame 41, and the second coupling protrusion 54 of the second frame 51 are disposed on the upper portion. It can be stacked by being inserted into the corresponding coupling groove.

As described above, when each coupling protrusion is inserted into each coupling groove located on the upper bottom and stacked, each member does not flow when bolted through a plurality of coupling holes formed around the outer periphery of the rim of each member. can be combined

Accordingly, the first electrode plate member 40 and the second electrode plate member 50 corresponding to the upper and lower surfaces of the spacer 30 may be coupled by being inserted into the coupling grooves formed on the bottom surface of the respective coupling protrusions in a stacked state.

The second pole plate member 50 is formed in the same manner as the first pole plate member 40 , and a second frame 51 having a second through hole 53 formed in the center thereof is configured, and the A second step 52 is formed on one side so that the second electrode plate 56 can be positioned, and the second frame ( The second terminal 55 is installed on one side of the 51 , and is attached to the second terminal 55 by welding to electrolyze raw water by the power applied from the control unit 5 to the second frame 51 . ) may include a second electrode plate 56 installed on the second step 52 .

The second electrode plate 56 may be formed to cover the entire second through hole 53 formed in the second frame 51 .

The spacer 30 is between the lower case 20 and the first pole plate member 40, or between the first pole plate member 40 and the second pole plate member 50, or the second pole plate member 50 and the upper case. (60), or between the lower case 20 and the first pole plate member 40, the second pole plate member 50 and the upper case 60, respectively, may be installed.

The size and shape of the spacer 30 may be the same as those of the first electrode plate member 40 and the second electrode plate member 50 .

The spacer 30 has a through hole in the central portion and is installed on the upper portion of the lower case 20 so that the incoming raw water can move to the first electrode plate member 40 and the second electrode plate member 50 through the through hole 33 . ) is formed, the spacer frame 31 is formed, and the upper and lower portions of the spacer frame 31 can be coupled to the lower case 20 upper portion and the first electrode plate member 40 and the second electrode plate member 50, respectively. The first and second coupling protrusions may be respectively formed on the upper surface and the coupling groove on the bottom surface so that the coupling grooves are formed.

In the electrolysis device 10 of the present application made as described above, raw water may be supplied to the electrolysis device 10 at a constant flow rate through a normal pressure reducing valve (not shown).

The pressure reducing valve allows the inflow of raw water to be introduced at a constant flow rate.

When water (H ₂ O) is decomposed into electrical energy in the electrolysis device 10, it may be decomposed into OH and H or H2 and O. At this time, since the bond of OH is stronger than that of H2, it is more frequently divided into OH and H. In addition, hydrogen molecules (H ₂ ) may be dissociated into hydrogen (H) atoms to become cationic hydrogen (H) having a proton and anionic hydrogen (H ⁻ ) having two electrons. Therefore, when water (H ₂ O) is electrolyzed, it can be decomposed into hydrogen (H) and hydroxide ions (OH), and the decomposed ionic substances combine with other ionic substances present in water to form various types of substances. can create

Anionic hydrogen (H ⁻ ) generated by the electrolysis of water in the electrolysis device 10 is rapidly occluded (hydrogen bond) in the mineral, and thus is relatively stabilized. The anionic hydrogen transfers excess electrons to harmful oxygen (free radicals) substances in the body and/or outside the body, so that the anionic hydrogen is oxidized to water and the harmful oxygen substances are reduced. The hydroxide ion (OH ⁻ ) material generated by the electrolysis of water in the electrolysis device 10 also has a property of a potential action to reduce water having high oxidation power.

Therefore, the reaction formula of the harmful oxygen (free radical) substance and the anion hydrogen is as follows.

[Reaction formula] OH + H ^- →H ₂ O

Also, when water is decomposed by electrolysis, oxygen can be decomposed. Oxygen (O ₂ ) Molecules are separated into atoms (O ₁ ) to generate nascent oxygen (one oxygen). The generated oxygen and cation hydrogen (H ⁺ ) cause a binding reaction with organic matter in water, which is a free radical material, hydrogen peroxide (H ₂ O ₂ ), free radical hydroxyl group (OH), superoxide ion (O ₂ ^- ) and ozone (O ₃ ), etc. can be produced, and hydrogen chloride (HCl) and hypochlorous acid (HOCl) can be produced in water to which chlorine (Cl) is administered.

The electrolysis device 10 provided by the content disclosed by the present application generates electrolyzed water from raw water and supplies it to the first composite filter 70 . 5 is a cross-sectional view of the first composite filter 70 of the contents according to the present application, FIG. 6 is a plan view showing the first composite filter 70 of the contents according to the present application, and FIG. 7 is the present application It shows an external view of the first composite filter 70 according to the contents.

The first composite filter may further include a second case covered to the outside, but is not limited thereto.

The electrolysis device 10 generates electrolyzed water from raw water and supplies it to the first composite filter 70 .

The case tube 71 may have a cylindrical plastic tube shape so that a filter can be installed like a conventional water purifier.

A connection connector is installed on the upper surface of the upper cover 71-2 of the case pipe 71 in which the first composite filter is embedded so that water can be introduced and/or discharged, so that the first transfer pipe 2 can be connected. do.

The first composite filter 70 may include a wrinkle sed 72 , a nano antibacterial film 73 , a carbon block 74 , and an antibacterial ball 76 . The first composite filter 70 may further include a combination of a case pipe 71 constituting a body and an upper cover 71-2 and a lower cover 71-3 of the case pipe 71.

At this time, the first composite filter 70 forms a hollow part 75 in which the antibacterial ball 76 is filled in the central part, and forms a carbon block 74, a nano antibacterial film 73 and a wrinkle set 72 from the inside. may be configured.

In this case, the carbon block 74 of the first composite filter 70 may be a mixture of activated carbon powder and metal mineral powder. The carbon block 74 may be in the form of a tube having a hollow portion 75, but is not limited thereto.

The carbon block 74 may be a mixture of 75 to 85% by weight of activated carbon powder and 15 to 25% by weight of metal mineral powder based on 100% by weight of the carbon block.

The activated carbon powder may include activated carbon and PP binder powder. For example, the activated carbon powder may be a mixture of 85 to 90% by weight of the activated carbon and 10 to 15% by weight of the PP binder powder based on 100% by weight of the activated carbon powder, but is not limited thereto. Accordingly, the activated carbon powder may be a mixture of 80 to 85% by weight of the activated carbon and 15 to 20% by weight of the PP binder powder. Accordingly, the activated carbon powder may be a mixture of 90 to 95% by weight of the activated carbon and 5 to 10% by weight of the PP binder powder. The mixing ratio of the activated carbon and the PP binder powder may follow a conventional technique. At this time, the activated carbon and/or PP binder powder may be 150 mesh.

The metal mineral powder may include silver, copper, zinc, titanium and magnesium. For example, the metal mineral powder is based on 100% by weight of the metal mineral powder, silver 2-8% by weight, copper 10-20% by weight, zinc 30-40% by weight, titanium 2-8% by weight, and magnesium 35-45 It may be a mixture of weight %, but is not limited thereto. The silver may be made of 500 mesh fine powder. Any one or more of copper, zinc, and titanium may be made of a powder of 325 mesh or more. The magnesium may be in the form of 0.5 to 1 mm fine grains.

The metal mineral is in the form of fine powder of 325 mesh or more compared to 150 mesh of activated carbon, so caution must be followed when manufacturing the block-type antibacterial filter. Compared to activated carbon powder 150 mesh, silver (Ag) is 500 mesh among metal minerals, and copper (Cu), zinc (Zn) and titanium (Ti) other than copper (Cu), zinc (Zn), and titanium (Ti) are composed of 325 mesh powder, so the particle size is 80 compared to activated carbon mesh. It is reprocessed in the form of ~100 mesh or 0.3~0.5mm seed ball. Based on 100 wt% of the metal mineral, copper (Cu) 10-20 wt%, zinc (Zn) 30-40 wt%, composed of 325 mesh powder in addition to 2-8 wt% of 500 mesh fine silver (Ag) , titanium (Ti) 2 to 8% by weight of the mixed powder is uniformly stirred to be granulated in the form of 80 to 100 mesh by spray-drying, and this is calcined in a hot air kiln at 220 ° C. to 240 ° C. for 2.5 to 3.5 hours. Rework into a hard object through the path, and evenly mix 35-45 wt% of fine-grained magnesium (Mg). The hot air kiln may be to provide a temperature of about 230 ℃. The firing may be performed for about 3 hours. Thereafter, based on 100% by weight of the carbon block, a cylinder-shaped block composite filter is molded under a mixed composition of 75 to 85% by weight of activated carbon powder and 15 to 25% by weight of metal mineral powder.

The natural metal mineral used in the content disclosed in the present application is a mineral that has received sunlight for billions of years and has a relatively large far-infrared emitter. In particular, titanium (Ti) materials with high photocatalytic power, including silver (Ag), copper (Cu) and zinc (Zn), which have high energy levels among metal minerals and belong to antibacterial metal minerals, have strong antibacterial activity and a very strong far-infrared emitter. .

Magnesium (Mg) material lowers the surface tension of water by converting the oxidizing power of water into a reducing power, thereby lowering the surface tension of water, maintaining the properties in which bacteria cannot inhabit, and having antibacterial properties.

It is emphasized in the content disclosed in this application that all objects have negative charges (-e) and positive charges (+e), and these two electrons form alternating charges in a trigonometric relationship.

This can form a π-ray bond in which atoms or molecules donate electrons to form a closed shape and reciprocate resonance motion. This represents a rotating electromagnetic wave (π-ray) that rotates in the form of a material wave, and in the end, the Py-ray bond means a strong energy action that causes an alternating charge action.

The rotating electromagnetic wave (π-ray) as described above may act in a quantized state ranging from a large wavelength band to an infinitely small wavelength.

In the content disclosed in the present application, the antimicrobial metal mineral having a high energy level may generate a rotating electromagnetic wave by the degenerate separation action of negative and positive charges to cause strong resonance (wavelength and wave) phenomenon.

In addition, far-infrared radiation from metal minerals also generates strong energy and strengthens the surface tension (Hz) of water, causing a strong wavelength band along with the action of rotating electromagnetic waves (π-ray), allowing rapid change in physical properties to an environment where bacteria cannot exist. have. In addition, it is possible to have sterilization power by perforating bacterial amino acids.

An antibacterial ball 76 filling the hollow part 75 of the carbon block 74 of the first composite filter 70 may be included. Specifically, the first composite filter 70 filled with metal minerals and activated carbon of the contents disclosed in the present application has a high flow rate of 2 m to 3 m per second when the water pressure maintains a pressure of 2 kg/f cm 2 to 3 kg/f cm 2 Reflecting that having, a multi-porous filter is formed so that the flow path through which water flows into the first composite filter is permeated in a labyrinth state to widen the contact area with water, and is formed as a regular spherical antibacterial ball (76).

In the antibacterial ball 76, the metal mineral is formed by mixing silver, copper, zinc and titanium powder, tourmaline ore, feldspar which is a clay mineral, and white clay (kaolin) powder substituted with an antibacterial substance, molded into a spherical antibacterial ball and fired It may be processed.

The manufacturing method of the antibacterial ball 76 cites the contents disclosed in Korean Patent Registration No. 10-1977899, but is not limited thereto.

Therefore, another method of manufacturing the antibacterial ball 76 will be described in detail as follows.

Based on 100% by weight of the antibacterial ball, 5 to 10% by weight of the metal mineral powder and 90 to 95% by weight of the ore powder may be mixed, but is not limited thereto. Therefore, the antibacterial ball may be a mixture of 10 to 15% by weight of metal mineral powder and 85 to 90% by weight of ore powder. The antibacterial ball may be a mixture of 15 to 20% by weight of metal mineral powder and 80 to 85% by weight of ore powder.

Based on 100% by weight of the metal mineral powder, in addition to 2 to 8% by weight of silver made of fine powder, 25 to 35% by weight of copper, 55 to 65% by weight of zinc, and 2 to 8% by weight of titanium are prepared. . In this case, the silver may be 500 mesh. In this case, at least one of copper, zinc, and titanium may be 325 mesh.

Based on 100% by weight of ore powder, 20-30% by weight of tourmaline powder, 30-45% by weight of feldspar powder, 10-20% by weight of synthetic zeolite substituted with antibacterial material, and 15-30% by weight of clay (kaolin) mixed Prepare the ore powder.

After putting the prepared metal mineral and ore powder in a stirrer and mixing them evenly, an appropriate amount is put into a rotating drum and water is sprayed in an extremely fine spraying manner to form a seed ball with a size of 0.3 to 0.5 mm.

After drying the molded seed ball naturally, a certain amount is put in a rotating drum, rotated, and a solution obtained by diluting the inorganic binder in water is finely sprayed while adding the prepared mixed mineral powder little by little to 2 mm or more or 5 mm to 10 mm suitable for the purpose. It is molded into a regular spherical antibacterial ball of the size. The natural drying may be 10 hours or more. The natural drying may be 12 hours or more.

The molded spherical antibacterial ball can be naturally dried again. In this case, the natural drying may be 10 hours or more. The natural drying may be 12 hours or more.

The molded spherical antibacterial ball may be dried at a low temperature of 230°C to 250°C in an electric furnace. The spherical antibacterial ball may be subjected to a firing and drying process at intervals of 3 hours in the electric firing furnace. The drying process may be twice. However, the firing time and number of firings are not limited thereto.

In this way, the antibacterial ball 76 is filled in the hollow part 75 of the carbon block 74 in the composite filter 70 made of metal minerals and activated carbon to increase the surface activity of water, and the durability and reducing power of antibacterial and/or sterilizing power ( ORP) to provide a first composite filter (70) that is a functional filter for the rise.

The first composite filter 70 formed as described above filters the electrolyzed water supplied from the electrolysis device 10 to strengthen the antibacterial function to supply the antibacterial electrolyzed water. The antibacterial electrolyzed water is sent to the magnetized water generator 80 through the second transfer pipe 7 .

8 is an external view of the magnetized water generating device disclosed by the present application, FIG. 9 is an exploded perspective view of the magnetized water generating device disclosed by the present application, and FIG. 10 is disclosed by the present application It shows a plan cross-sectional view of the magnetized water generating device.

The magnetized water generating device 80 according to the content disclosed by the present application consists of a body 83 made of a rectangular enclosure shape and a lid 81 having a guide groove 82, and the third transfer to the central part of the body 83. It may include a concave portion 84 formed so that the tube 8 is installed.

The magnetized water generator 80 includes a magnet 85 . The N-pole surface corresponding to the inner part of the magnet 85 may be installed so that the same N-pole corresponds to both sides of the concave portion 85 . In addition, the S pole surface corresponding to the outer portion of the magnet 85 may include a shielding film 86 is installed, and filling the gap between the shielding film 86 and the body 83 with an epoxy resin 87 . In this case, the magnetized water generating device may be to provide a magnetic force of 6000 to 9000 Gauss of the N-pole. In this case, the magnetized water generating device may be to provide a magnetic force of 7500 to 8500 Gauss between the N pole and the N pole. In this case, the magnetized water generator may provide a magnetic force of 8000 Gauss between the N pole and the N pole.

When passing through the strong magnetic force of the magnetized water generating device 80, water molecules may be subdivided into a dense state and have functions such as purifying power, cleaning power, dissolving power, penetrating power, and sterilizing power. Since all liquids cause their own resonance (wavelength and wave) phenomenon by alternating magnetic fields, changes in physical properties by magnetic fields can enhance the surface activity.

At this time, if water is vertically passed through a magnetic device configured to provide a magnetic force between the N pole and the N pole, the water molecular structure can be composed of a dense group as if the water molecular structure is split into extremely small pieces due to the ionic activation of the water molecular structure. . That is, it is clustered and the surface tension can be lowered. The water with the surface tension lowered may be beneficial for obtaining activation to physiological activities.

Therefore, if the surface tension is lowered by increasing the energy line width due to magnetic force, the strength of the liquid surrounding the material increases and the surface activity of the liquid increases as if it dissolves the decomposed material well. It can provide the action of removing bacteria, removing decomposition substances, and activating human physiological activity.

Oral hygiene water production apparatus provided by the disclosure in the present application is an electrolysis device for supplying electrolyzed water (10); a first composite filter 70 for supplying antibacterial electrolyzed water; and a magnetized water generating device 80 for supplying antibacterial magnetized electrolyzed water, which causes a resonance phenomenon (wavelength and wave) in water to densely cluster the water molecular structure group to strengthen the surface tension (Hz) It is intended to increase the surface activity by energy action. Therefore, the oral hygiene water production device applies an electrolysis technology to an electrolyzed water generator that generates electrolyzed water under conditions where the production of hydrogen (H) and hydroxide ions (OH ^- ) is maximized, and natural ore and energy level with high far-infrared radiation. By combining a composite filter that strengthens antibacterial and sterilization power and provides alkali (PH) synergism with a mixed composition of reducing materials following high metal mineral selection, and a magnetized water generator that activates the surface active power by the magnetization of the N pole, It is designed to produce sanitary water that is helpful for oral health.

In general, tap water has a high oxidizing power due to the administration of chemicals, and at this time, the surface tension (Hz) is high at an average of 128 to 148 Hz, the water molecular structure is large and loose, and the oxidation phenomenon occurs quickly.

On the other hand, ore types with high far-infrared radiation or metal minerals with a high energy level cause strong light (π-RAY) by far-infrared rays even in water below room temperature, and have an alternating charge principle in up-and-down coexistence relationship. Water passing through the first composite filter based on electromagnetic wave theory again passes through an energy amplifying device composed of a magnetization function by the N pole and generates a very low surface tension (Hz) due to resonance, thereby increasing penetration, antibacterial power, decomposition power and reducing power. may be reinforced.

The antibacterial electrolyzed water provided through the electrolysis device 10 and the first composite filter 70 may be used for oral care. The electrolyzed water provided by the electrolysis device may provide anionic hydrogen, hydroxide ions, and free radicals. When the electrolyzed water supplied from the electrolysis device is filtered through the first composite filter, antibacterial electrolyzed water can be supplied. The antibacterial electrolyzed water may further maximize the antibacterial enhancement and alkali (pH) synergistic effect on physical properties provided through the electrolyzed water.

According to the content provided in the present application, the electrolysis device 10 in the oral hygiene water production device may be configured before the first composite filter (70). At this time, since the electrolysis device 10 is configured before the first composite filter 70, it is possible to prevent corrosion of the electrodes included in the electrolysis device.

Electrolyzed water and/or antibacterial electrolyzed water provides anionic hydrogen and hydroxide ions to help prevent and/or reduce oxidation of cells. Therefore, it is possible to provide a gum protection function. In particular, hydroxide ions present in electrolyzed water and/or antibacterial electrolyzed water produce antioxidants such as catalase, peroxidase, glutathione, and percyoxyredoxin, including superoxide dismutase (SOD), a bioactive enzyme beneficial to the human body. Not only can it be beneficial to oral health, but it can also help prevent bleeding gums.

In addition, the free radical material provided through the electrolyzed water and/or the antibacterial electrolyzed water helps in the removal of bacteria in the oral cavity as well as the microorganisms in the sanitary water.

However, only with electrolyzed water and/or antibacterial electrolyzed water, the duration of anion hydrogen, hydroxide ions and free radicals is short, and it is difficult to expect an increase in surface activity.

According to the content disclosed in the present application, by allowing the antibacterial electrolyzed water to pass through the magnetized water generating device 80, it is possible to supply the antibacterial magnetized electrolyzed water.

Since the antibacterial electrolyzed water has a property of increased surface activity, it is more effective in dissolving plaque and bacteria in the oral cavity. In addition, since the antibacterial electrolyzed water further extends the duration of anion hydrogen, hydroxide ions and free radicals, it is more convenient for real life and suitable for use as oral hygiene water beneficial to oral care and gum health.

The antibacterial magnetized electrolyzed water provided by the content disclosed in the present application may be suitable for use as oral hygiene water. The antibacterial magnetized electrolyzed water may be unsuitable for use as drinking water. Therefore, the oral hygiene water rejuvenation device may be to induce the use of rinsing water without drinking by maintaining ozone or the like in the antibacterial magnetized electrolyzed water to give a fishy smell.

Antibacterial magnetized electrolyzed water provided by the content disclosed in the present application provides safer rinsing water to, for example, infants, infants, patients with ocular muscle paralysis, the elderly, etc. may be doing At this time, the antibacterial magnetized electrolyzed water provided by the oral hygiene water production device may be more suitably used as the oral hygiene water use in that it provides safe sanitary water without the addition of chemicals.

The oral hygiene water production device provided by the content according to the present application can be separated into an oral irrigator and an oral rinse maker according to its use aspect.

The oral hygiene water production apparatus as the mouthwash production machine may provide rinsing water by storing the antibacterial magnetized electrolyzed water in a reservoir (not shown) connected to the magnetized water generator 80 . The rinse water provided at this time not only helps to remove plaque from teeth and gums just by brushing your mouth, but also helps your oral health just by rinsing your mouth.

The oral hygiene water production device as the oral irrigator sprays the antibacterial magnetized electrolyzed water via the spray gun ( FIG. 1 ) connected to the magnetized water generator 80 . The spray gun is made to narrow the discharge port to be sprayed in order to increase the pressure in the water, and may be one in which the water pressure and flow rate of water are strengthened. Therefore, the high water pressure antibacterial magnetized electrolyzed water provided by the spray gun may be more useful for removing plaque, a major cause of periodontal disease.

Example 1. Method for manufacturing the first composite filter

145 kg of activated carbon powder mixed with 128 kg of 150 mesh carbon powder and 17 kg of PP binder was prepared. Consists of 1.5 kg of silver (Ag) of 500 mesh, 6 kg of copper (Cu) of 325 mesh, 12 kg of zinc (Zn) of 325 mesh, 1.5 kg of titanium (Ti) of 325 mesh and 14 kg of magnesium (Mg) of 1-1.5 mm. 35 kg of metal minerals were prepared.

Among the metal minerals, 1.5 kg of silver (Ag) excluding 14 kg of magnesium (Mg), 6 kg of copper (Cu), 12 kg of zinc (Zn), and 1.5 kg of titanium (Ti) were mixed with powder mixed evenly and spray-dried to 80 to 100 Reprocessed into mesh-shaped fine-grained particles or molded into 0.3-0.5mm seed balls, then reprocessed into a solidified object through a firing and drying path in a hot air kiln at 230℃ for 3 hours, and fine-grained magnesium (Mg) 14kg Mixed evenly. Then, 145 kg of the mixed activated carbon powder was mixed composition.

Then, it was molded and processed into a cylinder-shaped block composite filter having a weight of 180 g per one.

Example 2. antibacterial ball Manufacturing method

The production of antibacterial balls is based on 300 kg at a time.

A metal mineral 20 kg mixed with 1 kg of silver (Ag) of 500 mesh, 6 kg of copper (Cu) of 325 mesh, 12 kg of zinc (Zn) of mesh and 1 kg of titanium (Ti) of mesh was prepared.

280 kg of ore powder mixed with silver (Ag) ion-substituted synthetic zeolite 45 kg, tourmaline 70 kg, feldspar powder 105 kg, and white clay (kaolin) 60 kg was prepared.

The prepared metal minerals and ore powder were put in a stirrer, mixed evenly, and an appropriate amount was put into a rotating drum (molding), and water was sprayed in an extremely fine spraying method to form a seed ball with a size of 0.3 to 0.5 mm (Φ).

After drying the molded seed ball in a natural drying method for more than 12 hours, put a certain amount in a rotating drum and rotate it while adding the prepared mixed mineral powder little by little while finely spraying a solution obtained by diluting the binder in water to 2Φ or more suitable for the purpose Alternatively, it was molded into a regular spherical antibacterial ceramic ball with a size of 5 to 10 Φ.

The molded spherical antibacterial ball was dried again in a natural drying method for about 12 hours, and then the antibacterial ceramic ball was produced through two firing processes at 3 hour intervals at a low temperature of 230°C to 250°C in an electric furnace.

Experimental example 1. Verification of strain removal rate of antibacterial magnetized electrolyzed water

The antibacterial ability of the antibacterial magnetized electrolyzed water supplied from the oral hygiene water production apparatus was verified at the time of leaving it for 10 minutes after preparation and leaving it for 30 minutes after preparation.

The oral hygiene water production device was connected to tap water of a water pressure of 1.5 kgf/cm ² , the power of the oral hygiene water production device was turned on, the valve was opened, 100 mL of purified water was collected, and left for 10 minutes and then left for 30 minutes.

Escherichia as an experimental strain coli ATCC 25922 , staphylococcus aureus ATCC 6538 , Salmonella typhimurium ATCC13311 , pseudomonas aeruginosa ATCC15442 and shigella sonnei ATCC 29930 were prepared.

Bacteria were inoculated so that the final number of bacteria was about 10 ³ CFU/ml in tap water, and the number of bacteria was measured after 5 minutes (control group).

The bacteria were inoculated so that the final number of bacteria was about 10 ³ CFU/ml in the antibacterial magnetized electrolyzed water prepared from the oral hygiene water production apparatus left for 10 minutes, and the number of bacteria was measured after 5 minutes (10 minutes).

The bacteria were inoculated so that the final number of bacteria was about 10 ³ CFU/ml in the antibacterial magnetized electrolyzed water prepared from the oral hygiene water production apparatus left for 30 minutes, and the number of bacteria was measured after 5 minutes (30 minutes).

The number of bacteria was measured according to the plate colony method, and the plates used in this case are shown in FIGS. 12 to 16 . The measurement results of the strains converted by the plate colony method are shown in Table 1 below.

Experimental result of removal rate of 5 major strains Test Items Result (unit: CFU /ml) Removal rate coli control 2000 10 minutes One >99.9 control 2200 30 minutes 15 99.3 Staphylococcus aureus control 1000 10 minutes 9 >99.1 control 1000 30 minutes 13 98.7 Salmonella control 4000 10 minutes 0 >99.9 control 2900 30 minutes 14 99.5 Pseudomonas aeruginosa control 1000 10 minutes 3 >99.7 control 4600 30 minutes 76 98.3 Shigella control 3100 10 minutes 5 >99.8 control 3300 30 minutes 32 99.0

Removal rate (%) = (control concentration-experimental group concentration) / control concentration *100

According to the experimental results, not only the antibacterial magnetized electrolyzed water immediately after manufacturing, but also the antibacterial magnetized electrolyzed water left for 30 minutes after manufacturing Escherichia coli , staphylococcus aureus , Salmonella typhimurium , pseudomonas aeruginosa , and shigella It was confirmed that antibacterial activity against sonnei was maintained.

Although the embodiments disclosed in the present specification and drawings have been described with reference to the limited embodiments and drawings, specific examples are merely provided to aid understanding, and are not intended to limit the scope of the invention disclosed in the present application.

In addition, the term 'about' as used herein refers to 30, 25, 20, 25, 10, 9, 8, 30, 25, 20, 25, 10, 9, 8, means an amount, level, value, number, frequency, percentage, dimension, size, amount, weight or length varying by 7, 6, 5, 4, 3, 2 or 1%.

In addition to the embodiments disclosed herein, it is apparent to those of ordinary skill in the art to which the invention disclosed in the present application pertains that other modifications based on the technical idea of the invention disclosed in the present application can be implemented. For example, appropriate results may be achieved if the techniques described are performed in a different order than the method described, or substituted or substituted for other components or equivalents. Therefore, other implementations, other embodiments, and equivalents to the claims are also within the scope of the following claims.

1: Oral hygiene water production device 2: First transfer pipe
3: Supply pipe 4: Outlet pipe
5: Control unit 6: Power unit
7: Second transfer tube 8: Third transfer tube
10: electrolysis device 11: electrolysis device body
20: lower case 21: inlet
22: lower border 23: third connecting process
24: inclined surface 30: spacer
31: spacer frame 32: coupling projection
33: through hole 40: first electrode plate member
41: first frame 42: first through hole
43: first coupling protrusion 44: first step
45: first terminal 46: first electrode plate
50: second electrode plate member 51: second frame
52: second step 53: second through hole
54: second coupling protrusion 55: second terminal
56: second electrode plate 60: upper case
61: upper border 62: reinforcing rib
63: outlet 70: first composite filter
71: case tube 71-2 case tube upper cover
71-3: case tube lower cover 72: wrinkle sed
73: nano antibacterial film 74: carbon block
75: hollow part 76: antibacterial ball
77: inlet connector 78: outlet connector
80: magnetized water generator 81: lid
82: guide groove 83: body
84: groove 85: magnet
86: shielding film 87: epoxy resin
88: inlet fitting 89: outlet fitting
310: first water filter 320: filter inlet cap
322: first coupling member 330: filter outlet cap
332: protruding outlet 334: second coupling member
340: reduction catalyst ball 350: mesh net
352: copper mesh 354: mesh cap
100: electrolysis unit 200: first filtration unit
300: second composite filter

Claims (13)

In the oral hygiene water production device 1 consisting of the electrolysis unit 100 including the electrolysis device 10 , the first filtration unit 200 including the first composite filter 70, and the magnetic water generating device 80 in,
The electrolytic unit 100 includes:
Supply pipe (3) for introducing raw water into the electrolysis device (10) ,
An electrolysis device 10 connected to the supply pipe 3 and installed to generate electrolyzed water by electrolyzing the raw water provided from the supply pipe 3 , and
The water outlet pipe (4) connected to the electrolysis device (10) and through which the electrolyzed water is discharged from the electrolysis device (10)
including,
Here, the electrolysis device 10 is:
It is connected to the supply pipe 3 through which the raw water is introduced and the water outlet pipe 4 through which the electrolyzed water is discharged,
and an electrolysis device body 11 capable of electrolyzing the raw water flowing in through the supply pipe 3 to generate electrolyzed water and discharging the electrolyzed water to the outlet water pipe 4,
The electrolysis device body 11 includes:
a lower case 20 having an inlet 21 for introducing the raw water, the lower case 20 having an inclined surface 24 so that a certain amount of the raw water is collected inside the lower case 20;
an upper case 60 having an outlet 63 for discharging the electrolyzed water;
The first pole plate member 40 and the second pole plate member 50 installed between the lower case 20 and the upper case 60 to electrolyze raw water flowing in through the inlet 21 to generate electrolyzed water. , and
A spacer (30) having a through hole (33) between the lower case (20) and the first electrode plate member (40), a coupling groove on the bottom surface, and a coupling protrusion (32) on the upper side, and installed one or more
comprising;
The first filtering unit 200 includes:
An inlet connector 77 connected to the outlet pipe 4 and the first transfer pipe 2 to introduce the electrolyzed water into the first composite filter 70 ,
A first composite filter 70 connected to the inlet connector 77 and installed to filter the electrolyzed water provided from the inlet connector 77 to generate antibacterial electrolyzed water, filled with a natural metal mineral material and activated carbon mixture a first composite filter 70, and
A discharge connector (78) connected to the first composite filter (70) and discharging the antibacterial electrolyzed water from the first composite filter (70)
comprising; and
The magnetized water generating device 80 includes:
Inlet fitting 88 connected to the discharge connector 78 and the second transfer pipe 7 to introduce the antibacterial electrolyzed water into the third transfer pipe 8 ,
A third transfer pipe (8) connected to the inlet fitting (88) and transporting the antibacterial electrolyzed water provided from the inlet fitting (88) ,
A magnet 85 surrounding the third transfer pipe 8, a magnet 85 capable of generating antibacterial magnetized electrolyzed water by providing a magnetic force to the antibacterial electrolyzed water, and
A discharge fitting 89 that is connected to the third transfer pipe 8 and discharges the antibacterial magnetized electrolyzed water generated in the third transfer pipe 8 .
Oral hygiene water production device comprising a. The method of claim 1,
The electrolytic unit 100 includes:
A power supply unit 6 for providing power to the electrolysis device 10, the power supply unit 6 including an AC adapter or a DC adapter, and
A control unit (5) that is electrically connected to the power supply unit (6) and the electrolysis device (10) to be controlled
Oral hygiene water production device, characterized in that it further comprises. delete 3. The method of claim 2,
The first electrode plate member 40 includes:
a first frame 41 formed in the same manner as the spacer 30 and having a first through hole 42 formed in the center thereof;
a first terminal 45 installed on one side of the first frame 41 by insert injection so that the power applied from the control unit 5 can be supplied to the first electrode plate 46; and
The first electrode plate is attached to the first terminal 45 by welding and installed in the first through hole 42 of the first frame 41 so that the raw water can be electrolyzed by the power applied from the control unit 5 . (46) comprising;
Oral hygiene water, characterized in that the first frame 41 has a first coupling groove and a first coupling protrusion 43 so as to be coupled to the bottom surface coupling groove of the second electrode plate member 50 stacked on the top. manufacturing equipment. 3. The method of claim 2,
The second electrode plate member 50 ,
a second frame 51 formed in the same manner as the spacer 30 and having a second through hole 53 formed in the center thereof;
a second terminal 55 installed on one side of the second frame 51 by insert injection so as to supply the power applied from the control unit 5 to the second electrode plate 56; and
A second electrode plate attached to the second terminal 55 by welding to electrolyze the raw water by the power applied from the control unit 5 and installed in the second through hole 53 of the second frame 51 . (56) comprising;
A second coupling protrusion 54 is formed on the second frame 51 to be coupled to the bottom coupling groove of the first coupling protrusion 43 of the first electrode plate member 50 or the spacer 30. A device for producing oral hygiene water. The method of claim 1,
The first composite filter 70 forms a hollow part 75 in which the antibacterial ball 76 is filled in the central portion and includes a carbon block 74, a nano antibacterial film 73 and a wrinkle set 72 from the inside. Characterized in that, oral hygiene water production device. 7. The method of claim 6,
The carbon block 74 of the first composite filter 70 is
Activated carbon powder mixed with activated carbon and PP binder powder; and
As a mixture of metal mineral powder made of silver, copper, zinc, titanium and magnesium, it is characterized in that it is in the form of a tube having a hollow part (75), an oral hygiene water production device. 8. The method of claim 7,
The metal mineral mixed in the carbon block 74 of the first composite filter 70 is based on 100% by weight of the metal mineral powder, silver 2-8% by weight, copper 10-20% by weight, zinc 30-40% by weight %, titanium 2-8% by weight, and magnesium 35-45% by weight, characterized in that consisting of a metal mineral powder mixed, oral hygiene water production device. The method of claim 1,
The magnetized water generating device 80 is coupled to a body 83 and a lid 81, and a recess 84 is formed so that the third transfer pipe 8 is installed in the center of the body, and is installed on both sides of the recess 84. The magnet 85 is installed so that the N poles correspond to each other, and the S pole surface outside the magnet is characterized in that the shielding film 86 is installed, oral hygiene water production apparatus. 10. The method of claim 9,
The lid 81 is an oral hygiene water, characterized in that the guide groove 82 is formed on the surface when the lid 81 corresponds to guide the third transfer pipe 8 fitted in the recess 84 of the body 83. manufacturing equipment. The method of claim 1,
As an oral hygiene water production device further comprising a second filtration unit ,
The second filtration unit includes a filtration filter ,
The filtration filter is connected to the supply pipe (3), the filtration filter provides raw water, and the raw water provided by the filtration filter is filtered water from which impurities are removed by filtering tap water or groundwater, oral hygiene water manufacturing equipment. The method of claim 1,
As an oral hygiene water production device further comprising a second filtration unit ,
The second filtering unit includes a second composite filter (300) ,
The second composite filter 300 is connected to the supply pipe 3 , the second composite filter 300 provides raw water, and the raw water provided by the second composite filter filters tap water or groundwater to have antibacterial activity. It is characterized in that the enhanced filtered water, oral hygiene water production device. 13. The method of claim 12,
The second composite filter 300 is
Based on 100% by weight of the first water filter, zeolite, magnetite ore, tourmaline and magnesium are mixed in the form of fine powder to form a block shape of a hollow cylindrical structure, the zeolite 30 to 40% by weight, magnetite ore 15 to 25 a first water filter comprising 20 to 30% by weight of tourmaline and 15 to 25% by weight of magnesium;
Based on 100% by weight of the second water filter, elvan, zeolite, sodium feldspar, and phosphate minerals are mixed in the form of fine powder to form a hollow cylindrical block shape, the elvan stone 30 to 40% by weight, the zeolite 25 to 35% by weight, 20 to 30% by weight of the sodium feldspar, and a second water filter comprising 5 to 15% by weight of the phosphate mineral; and
Based on 100% by weight of the third water filter, zeolite, tourmaline, waste fossil and activated carbon are mixed in the form of fine powder to form a block shape of a hollow cylindrical structure, the zeolite 20 to 30% by weight, the tourmaline 10 to 20 A third water filter comprising 15 to 25% by weight of the waste fossil and 35 to 45% by weight of the activated carbon
Oral hygiene water production device, characterized in that it comprises any one or more selected from the group consisting of.

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