KR200219735Y1 - Apparatus for preparing water solution of dissolved and decomposed ozone - Google Patents

Abstract

The present invention relates to a cosmetic cleanser that produces ozone dissolved decomposed water containing free radicals having a strong oxidizing power by aeration of ozone in water.

The face wash according to the present invention includes a filter adjacent to the intake port; A dehumidifier connected to the filter; An air pump connected to the dehumidifier; An ozone generator connected to the air pump; A diffuser connected to the ozone generator for aeration of the ozone generated in the ozone generator in water; An aeration tank including the diffuser inside and filled with water; A water supply port and a drain port respectively formed above and below the aeration tank; An ozone decomposer including a heater that destroys residual ozone that is not dissolved in the aeration tank; And a stabilization power supply for supplying stabilized power to the air pump, the ozone generator, and the ozone destroyer.

The face wash device of the present invention makes it possible to use ozone dissolved decomposition water in which pure ozone without impurities is dissolved in water, as a cosmetic face wash.

Description

Cosmetic face wash that produces ozone dissolved decomposition water {Apparatus for preparing water solution of dissolved and decomposed ozone}

The present invention relates to a cosmetic cleanser that produces ozone dissolved decomposed water containing free radicals having a strong oxidizing power by aeration of ozone in water.

An ozone generator is essential for producing ozone dissolved decomposition water. The ozone generator used in the present invention is an ozone generator using a low activity plasma ion discharge.

Ozone production methods include a chemical method, an ultraviolet method, a radiation method, a plasma radiation method, and a silent discharge method. Among them, the silent discharge method is known to have the highest efficiency. A representative example of the silent discharge method is shown in FIG. This is tubular, and FIG. 1 schematically shows its longitudinal cross-sectional view. A discharge occurs between the electrode 2 and the applied insulating material 1, and coolant 5 is required to cool the generated heat. This method has problems of excessive heat generation due to corona discharge, generation of impurities other than ozone (nitrogen oxide, dioxin, furan, etc.), and greatly shortens the life of the device due to carbon deposition caused by the flashover. Has already been demonstrated by several reports.

When the ozone is dissolved in water, free radicals having strong oxidizing power are generated, and the present inventors have found that there are various useful effects when washing with ozone dissolved decomposition water. It became.

The ozone generator developed by the present inventors is also used for the facial cleanser that produces the ozone dissolved decomposition water.

It is an object of the present invention to provide a cosmetic cleansing device for producing ozone dissolved decomposed water, which makes it possible to use ozone dissolved decomposed water in which pure ozone without impurities is dissolved in water.

1 is a schematic diagram of an ozone generator according to the prior art

Figure 2 is a schematic diagram of an embodiment of the ozone generator used in the present invention

3 is a plan view of the low-activity plasma ion discharge plate of FIG.

Figure 4 is a schematic diagram of a facial cleanser for producing ozone dissolved decomposition water according to an embodiment of the present invention

※ Explanation of symbols for main parts of drawing

1: insulating material 2: electrode

5: cooling water 10: composite ceramic lamination

15: ceramic adhesive 17: conductive adhesive

20: alloy thin plate for electrode 30: stabilized power supply

32: power cord 40: filter

42: intake vent 50: dehumidifier

60: air pump 70: ozone generator

80: diffuser 90: aeration tank

92: water supply port 94: water supply valve

96: drain port 98: drain valve

100: low activity plasma ion discharge plate 110: ozone decomposer

112: exhaust port 120: case

122: power switch 124: operation switch

126: aeration time adjustment timer

In order to achieve the above object, the cosmetic face-washing machine for producing ozone dissolved decomposition water according to the present invention includes a filter adjacent to the intake port; A dehumidifier connected to the filter; An air pump connected to the dehumidifier; 3-4% by weight of stabilized zirconium oxide powder, titanium oxide powder 2.2-2.8% by weight, aluminum oxide powder 90-95% by weight, and silicon nitride powder, which are connected to the air pump and contain 8-12 mol% of yttrium oxide After mixing weight% to form a composite powder, SUS component metal was melted between synthetic ceramic thin plates manufactured by adding 7 to 9% by weight of silicate glass to the composite powder to form and sinter the composite powder. After the molybdenum 1.8 ~ 2.2% by weight and platinum 0.3 ~ 0.7% by weight of the low-active plasma ion discharge plate produced by hermetically sealing the electrode alloy plate made of a thin plate by melting and spaced at a predetermined interval spaced in an insulating storage space Ozone generator formed; A diffuser connected to the ozone generator for aeration of the ozone generated in the ozone generator in water; An aeration tank including the diffuser inside and filled with water; A water supply port and a drain port respectively formed above and below the aeration tank; An ozone decomposer including a heater that destroys residual ozone that is not dissolved in the aeration tank; And a stabilization power supply for supplying stabilized power to the air pump, the ozone generator, and the ozone destroyer.

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

Ozone is a compound that is allotrope of oxygen, which occurs when discharges or ultraviolet rays act on oxygen and in very small amounts in the atmosphere. Ozone has the origin of 'clear air' and relatively large amount (about 0.02ppm) exists in forest or other clear air, and it has high deodorizing power and plays a role in suppressing bacteria or viruses in the air.

Ozone combines three oxygen atoms, and the third oxygen atom is unstable and easy to decompose. It has about 7 times more powerful oxidizing power than fluorine, so it is sterilized, deodorized, bleached, and discolored. Acts. Solubility in water is relatively large, about 10 times that of oxygen. The half-life is an extremely unstable gas, about 30 minutes in water and 1 hour in dry air, so it cannot be easily decomposed and stored in a container. It is also used for sterilization, virus inactivation, oxidation, decomposition, deodorization, decolorization, bleaching, etc. due to strong oxidation, and is widely used in aquaculture, fish farming, water and sewage treatment, food storage, and waste water treatment.

The maximum allowable value of ozone in the gas state is 0.06ppm. When contacted with ozone gas of 0.15ppm or more, the airway mucosa is blocked and pulmonary function change is observed. Cause In addition, long-term contact with the skin in a gaseous state breaks down the fat layer between cells and causes skin aging.

In order to eliminate these wastes and utilize the good function of ozone, the present invention utilizes ozone dissolved decomposition water in which pure ozone prepared by using the low activity plasma ion discharge developed by the present inventors is dissolved in purified or distilled water. It can be manufactured and used as a cosmetic face wash. The use of this cleansing water can avoid harmful to human body when using ozone in gaseous state and take advantage of ozone to bring about various beneficial effects.

Hereinafter, the production principle of ozone dissolved decomposition water will be described.

_{O 3 + H 2 O ->} HO 3 + + OH -

_{^{HO 3 + + OH - ->}} 2HO 2

O₃+ HO₂-> HO + 2O₂

HO + HO _2- > H ₂ O + O ₂

When ozone is dissolved in water, the above reaction occurs. HO and HO ₂ generated here have a strong oxidizing power as a free group. These free radicals react with various impurities in the water to kill bacteria, viruses, bacteria and lysates, destroy harmful substances such as humic acid (THM precursors) and malachion and oxidize organic matter. After that, it will return to water and oxygen, and the dissolved oxygen in the water will be maintained at about 10 times the dissolved oxygen in the general water.

Accordingly, skin trouble (for example, acne, folliculitis, bacterial dermatitis, dandruff, athlete's foot, eczema, etc.) is strongly suppressed by sterilization, discoloration, deodorization, and organic matter removal by free radicals, and oxygen is supplied through skin hops. The anti-aging and skin whitening effect, skin beauty effect, stress relief effect, fatigue recovery effect, neuralgia and rheumatism effect, blood pressure stabilization effect, disease prevention effect can be expected.

Hereinafter, the facial wash machine of the present invention will be described in detail.

The key component of the present invention is an ozone generator. First, the ozone generator used in the present invention will be described in detail.

Figure 2 is a schematic diagram of an embodiment of the ozone generator used in the present invention.

This ozone generator is manufactured by the following process.

3-4% by weight of stabilized zirconium oxide (ZrO ₂ ) powder containing 8-12 mol% of yttrium oxide (Y ₂ O ₃ ), 2.2-2.8% by weight of titanium oxide (TiO ₂ ) powder, aluminum oxide (Al ₂ O ₃₎ ) 90 to 95% by weight of the powder, and the remaining weight% of silicon nitride (Si ₃ N ₄ ) powder is combined to form a composite powder.

Here, yttrium oxide is added to zirconium oxide as a stabilizer. It is added to zirconium oxide to form stabilized zirconium oxide. The particle size of the stabilized zirconium oxide powder is preferably 2 to 3 µm.

The particle size of the titanium oxide powder is preferably 2 to 3 µm.

The aluminum oxide is preferably aluminum oxide having a purity of 99% or more and having a particle size of 1 to 2 µm.

As for the particle size of silicon nitride powder, 2-3 micrometers is preferable.

Silicon nitride forms fine surface protrusions upon firing, and stabilized zirconium oxide has fine conductivity and increases electron charging of the surface protrusions. Titanium oxide exhibits semiconductivity, but its electrical resistance is high at room temperature, but decreases with increasing temperature, and the resistance value changes drastically depending on the oxygen partial pressure of the atmosphere, which induces creepage streamer discharge during ion discharge. Prevents flashovers.

A small amount (7 to 9% by weight) of silicate glass is added to the composite powder, followed by molding and sintering to prepare a synthetic ceramic thin plate 10.

After melting the SUS component metal, molybdenum 1.8 to 2.2% by weight and platinum 0.3 to 0.7% by weight are added to melt the alloy thin plate 20 for the electrode. The thickness thereof is preferably 0.08 to 0.12 mm. Here, molybdenum is added to increase surface electron emission, and platinum is added to improve conductivity and reduce heat generation of the electrode itself.

Subsequently, the alloy thin plate 20 for electrodes is hermetically deposited by using the conductive adhesive 17 and the ceramic adhesive 15 between the synthetic ceramic thin plates 10 to form a low activity plasma ion discharge plate.

100 is prepared. 3 is a plan view of the ion discharge plate 100. A-A 'cross section of FIG. 3 is shown in FIG. 2 (100).

When the ion discharge plate 100 is spaced at a predetermined interval and disposed in the insulating storage space, the ozone generator used in the present invention is completed.

When oxygen or air is blown into the finished ozone generator at a pressure of 670 mmAq, it is possible to produce pure ozone with little heat generation and no flame flashover. The ozone generator consumes 13 to 18 W of power to produce 1 g of ozone. When using a conventional ozone generator, there was about 20 ~ 35W of power consumption per 1g ozone.

Hereinafter will be described in detail the face wash according to the present invention including the ozone generator described above.

As shown in Figure 4, the face wash according to the present invention filter 40, dehumidifier 50, air pump

60, an ozone generator 70, an diffuser 80, an aeration tank 90, a water supply port 92 and a drain port 96, an ozone destructor 110, and a stabilization power supply device 30.

The filter 40 filters impurities in air or oxygen sucked through the inlet 42. It is preferable to use a filter which can remove even impurities having a particle diameter of 0.1 mu m.

Air or oxygen passing through the filter 40 passes through the dehumidifier 50. This dehumidifier 50 contains a normal dehumidifier. It is preferable to dehumidify so that humidity may be 3% or less.

Air or oxygen passing through the dehumidifier 50 is passed through the air pump 60, by using the air pump 60 to inhale air or oxygen. It is preferable that the delivery pressure is fixed at 670 mmAq.

The air pump 60 is connected to the ozone generator 70. The configuration of the ozone generator 70 has been described above.

The gas passing through the ozone generator 70 is aerated in an acid pipe 80. The diffuser 80 is known in the art to compress and shape a powder material at high temperature and high pressure. The diffuser 80 is included in the aeration tank 90, and the aeration tank 90 is filled with water and then aerated. It is preferable that the bubble diameter of the diffuser 80 is 0.1 mm or less.

A water supply port 92 and a drain port 96 are formed above and below the aeration tank 90. Purified water or distilled water is introduced through the water supply port 92, and the generated ozone dissolved decomposition water is discharged through the drain port 96. . The water inlet 92 and the water outlet 96 are provided with a water supply valve 94 and a drain valve 98, respectively.

Since residual ozone that is not dissolved in the aeration tank 90 is released as it is harmful, the ozone destructor 110 is used to destroy and discharge ozone. Since ozone is weak in heat, a heater is used as the ozone destroyer 110. It is preferable to use the thing in which the heating coil is wound around the tubular heater, and to apply a temperature of 200 ° C or higher.

The face wash according to the present invention also includes a stabilizing power supply device 30 for supplying stabilized power to the air pump 60, the ozone generator 70, and the ozone destroyer 110. The stabilized power supply device 30 is connected to a power source via a power cord 32.

The face wash according to the present invention may further include an aeration time adjustment timer 126.

Hereinafter, preferred embodiments of the present invention will be described.

Example

An air inlet 42 is formed on the side surface of the case 120, and a filter 40 capable of removing impurities having a particle size of 0.1 mu m is provided therein. The dehumidifier 50 containing the conventional dehumidifier is connected to the filter 40. Connect the air pump 60, the delivery pressure is fixed to 670mmAq to the dehumidifier (50). The air pump 60 is connected to the ozone generator 70, the ozone generator 70 is manufactured as follows.

3.5% by weight of stabilized zirconium oxide powder with particle diameter of 2 to 3 µm containing 10 mol% of yttrium oxide, 2.5% by weight of titanium oxide powder with particle diameter of 2 to 3 µm, aluminum oxide (99% purity) powder of particle diameter of 1 to 2 µm 92 2% by weight of silicon nitride powder having a particle size of 2 to 3 µm is placed in a Y-type blender and blended for about 6 hours. To this composite powder, 8% by weight of silicate glass is added and blended and compacted by compression molding at about 7 ton / cm 2 by a hydraulic press. The thin molded body was sintered at about 2100 ° C. for 4 hours in a reducing state and then gradually cooled to form a synthetic ceramic thin plate.

(10) is manufactured. After melting the SUS component metal having a specific gravity of 7.98, 2% by weight of molybdenum and 0.5% by weight of platinum are added and melted to prepare a thin plate of 0.08 to 0.12 mm to prepare an electrode alloy plate 20. An alloy thin plate 20 for electrodes is hermetically deposited using a conductive adhesive 17 and a ceramic adhesive 15 between the composite ceramic thin plates 10 to produce a low activity plasma ion discharge plate 100. When the ion discharge plate 100 is spaced at a predetermined interval and disposed in the insulating storage space, the ozone generator 70 is completed.

The ozone outlet of the ozone generator 70 is connected to the diffuser 80 having a bubble diameter of 0.1 mm or less in the aeration tank 90. A water supply port 92 and a drain port 96 are formed above and below the aeration tank 90, and a water supply valve 94 and a drain valve 98 are respectively installed thereon. A tubular heater in which a heating coil is wound around a tube is installed as an ozone destructor 110 on the aeration tank 90. The aeration tank 90 and the ozone destroyer 110 are connected to the exhaust pipe. An exhaust port 112 is formed on the ozone destroyer 110.

Stabilized power supply device 30 is installed to the air pump 60, ozone generator 70, and ozone destroyer

Is electrically connected to 110.

An aeration time adjustment timer 126, a power switch 122, and an operation switch 124 having a time range of 0 to 30 minutes are installed. As the operation switch 124, a push button lamp (PBL) is used.

The principle of the face wash according to the present embodiment will be described below.

The proper concentration of ozone that can have a beneficial effect on the human body by using ozone dissolved decomposition water as the face-wash water is 0.02 ~ 0.2mmg / ℓ. This concentration can be obtained with a delivery pressure of 670 mmAq defined in the air pump 60, an diffuser 80 having a bubble diameter of 0.1 mm or less, and an aeration time of 4 to 20 minutes. Here, the delivery pressure of the air pump 60, the bubble diameter of the diffuser 80 is already determined, the aeration time can be adjusted by the aeration time adjustment timer 126.

The ozone dissolved decomposed water in the aeration tank 90 is most filled with free radicals after about 90 seconds (when stabilized) after the aeration is over. Therefore, it is most effective to use face wash at this time. After the aeration, it takes about 2 minutes to release all the dissolved ozone dissolved water.

The operation of the face wash device of the present embodiment will be described below.

After opening the water supply valve 94 and setting the aeration time adjustment timer 126 at an appropriate time, the power switch 122 and the operation switch 124 are turned on. After 4/5 of water is filled in the aeration tank 90, the air pump 60, the ozone generator 70, and the ozone decomposer 110 are operated, and when the corresponding aeration time elapses, the operation switch 124 is turned off. Will stop working. Immediately open the drain valve (98) to receive the face wash.

The ozone generator used in the present invention can produce pure ozone with little heat generation, no flashover action, and evenly discharge from the ion discharge plate, which has excellent ozone generating performance and low power consumption. In addition, since there is no flame flashing action, there is no carbon deposition effect and thus the life is semi-permanent. No nitrogen oxides, dioxins and other toxic substances are generated due to the flash flashing action, and since there is little heat generation, there is no need for a separate cooling device.

The face wash according to the present invention employing the ozone generator having the above advantages does not have toxic substances in ozone dissolved decomposition water because pure ozone without impurities is dissolved in purified or distilled water. The result of clinical experiments such as washing, washing, bathing, and showering with ozone dissolved decomposed water produced clear skin whitening effect, markedly suppressed skin diseases such as acne, markedly inhibited folliculitis, and reduced sebum. In particular, athlete's foot was markedly inhibited. In addition, it was expected to prevent skin aging by restoring skin elasticity and supplying oxygen to skin.

Claims (4)

A filter adjacent the intake port; A dehumidifier connected to the filter; An air pump connected to the dehumidifier; 3-4% by weight of stabilized zirconium oxide powder, titanium oxide powder 2.2-2.8% by weight, aluminum oxide powder 90-95% by weight, and silicon nitride powder, which are connected to the air pump and contain 8-12 mol% of yttrium oxide After mixing weight% to form a composite powder, SUS component metal was melted between synthetic ceramic thin plates manufactured by adding 7 to 9% by weight of silicate glass to the composite powder to form and sinter the composite powder. After the molybdenum 1.8 ~ 2.2% by weight and platinum 0.3 ~ 0.7% by weight of the low-active plasma ion discharge plate produced by hermetically sealing the electrode alloy plate made of a thin plate by melting and spaced at a predetermined interval spaced in an insulating storage space Ozone generator formed; A diffuser connected to the ozone generator for aeration of the ozone generated in the ozone generator in water; An aeration tank including the diffuser inside and filled with water; A water supply port and a drain port respectively formed above and below the aeration tank; An ozone decomposer including a heater that destroys residual ozone that is not dissolved in the aeration tank; And A facial cleanser for producing ozone dissolved decomposed water comprising the air pump, the ozone generator, and a stabilizing power supply for supplying stabilized power to the ozone decomposer. The cosmetic face-washing machine according to claim 1, further comprising an aeration time adjustment timer. The cosmetic face wash according to claim 1, wherein the discharge pressure of the air pump is fixed at 670 mmAq, and the bubble diameter of the diffuser is 0.1 mm or less. The particle size of the stabilized zirconium oxide powder, the titanium oxide powder, and the silicon nitride powder in the ozone generator is 2 to 3㎛ each, the particle diameter of the aluminum oxide powder is 1 to 2㎛, The purity of the aluminum oxide is at least 99%, the specific gravity of the SUS component metal is 7.98, the content of the molybdenum is 2% by weight, the content of the platinum is 0.5% by weight, the thickness of the alloy thin plate for the electrode is 0.08 ~ A facial cleanser for producing ozone dissolved cracking water, characterized in that 0.12 mm.