JP2011019857A5 - - Google Patents

Description

Ion sterilization air

  In order to prevent infectious diseases and improve or treat symptoms of infected diseases, the present invention provides a triple time series that can sterilize the air and disinfect the respiratory organs and body. In more detail, the ionized water ionized with antibacterial metal ions is assimilated by inhaled air and vaporized and mixed and released into the atmosphere by an air sterilizer. Bactericidal air with antibacterial action sterilizes and sterilizes airborne microorganisms such as bacteria, viruses, and fungi in the atmosphere, and sterilizes and sterilizes respiratory organs by breathing and inhaling the body. The present invention relates to ion sterilized air that can be sterilized and sterilized.

  Conventionally, what disinfects and disinfects air has been disclosed by passing air through a disinfecting solution to disinfect, disinfect, and deodorize microorganisms and various bacteria in the air (for example, Patent Document 1). reference). This is because a conductive solution is obtained by energizing single-phase alternating current using two silver plates that can be energized in a conductive solution (using a carbon plate as one pole when direct current is applied). It is electrolyzed to produce a sterilizing electrolytic silver ion solution. The sterilized solution is sent into the air in a sealed space such as a hospital room or operating room to sterilize, sterilize, and deodorize microorganisms and various bacteria contained in the air, and a sealed hospital room A method and apparatus for sterilization, sterilization and deodorization using silver ions that can sterilize the air in a sealed space by repeating circulation to return to a space such as an operating room.

  Moreover, an air sterilization apparatus that disinfects by bringing air into contact with a gas-liquid contact member to which a sterilizing solution is supplied is disclosed (for example, see Patent Document 2). This sterilization apparatus electrolyzes tap water to generate electrolyzed water containing active oxygen species having sterilizing power and supplies it to the gas-liquid contact member. Air taken in from the indoor atmosphere by a blower fan is sent to the gas-liquid contact member and brought into contact with electrolyzed water to sterilize and disinfect microorganisms and various bacteria in the air.

  Further, an air cleaning device is disclosed that discharges in the air taken from the room and discharges the generated sterilizing plasma cluster ions into the room (for example, see Patent Document 3). This apparatus discharges in the air taken in from the room, generates sterilization ions, and discharges it into the room, thereby sterilizing and sterilizing the floating bacteria in the room air.

JP 2001-353207 A JP 2009-118903 A JP 2007-236470 A

  However, in the method of passing the air in the sealed space through the sterilization solution of Patent Document 1 described above, since air passes in the form of bubbles, bacteria and the like that are in contact with the sterilization solution are killed. The bacteria in the center do not die. Therefore, there is a drawback that the atmosphere in the space does not become aseptic unless it is circulated many times to create a condition in which all bacteria etc. come into contact with the sterilizing solution and die. Air taken in from the sealed space is sterilized and sterilized in the sterilizing solution. Don't be.

  In addition, the air sterilization apparatus of Patent Document 2 is electrolyzed water in which tap water (water containing chlorine) is electrolyzed to generate two types of active oxygen species, OH radicals having strong oxidizing power and hypochlorous acid. When the electrolyzed water is supplied to the gas-liquid contact member and brought into contact with the indoor air, the electrolyzed water is unstable in molecular structure and has the ability to oxidize surrounding substances. Air is sterilized by inactivating viruses and the like so that they cannot be destroyed and adsorbed to human cells. However, since the air sent to the gas-liquid contact member only comes into contact with the electrolyzed water once, not all viruses and the like are killed, and continuous operation of uptake and release is required. In addition, since tap water contains a hardness component and a silica component, these components may be deposited as a scale on the gas-liquid contact member. There was a problem that it was necessary to prepare. Furthermore, since the taken-in air is only passively sterilized and sterilized by contacting the gas-liquid contact member in the air sterilizer, the air returned from the air sterilizer to the atmosphere is sterilized and removed. Although sterilized, it has no sterilizing ability and is not sterilizing air.

The air cleaning device of Patent Document 3 generates plasma cluster ions composed of positive and negative ions by ionizing or dissociating moisture and oxygen molecules in the air by discharge plasma by performing high-voltage plasma discharge in the taken-in air. To do. When the unstable OH radical of this plasma cluster ion is released into the atmosphere as sterilizing ions, it adheres to protein spikes on the surface of floating bacteria such as viruses, and extracts and binds hydrogen (H). Therefore, it decomposes and removes proteins to inactivate viruses and the like. In this way, since the plasma cluster ions are generated from the moisture and oxygen molecules of the taken-in air itself to produce sterilization ions, the air itself is sterilized by being sterilized and becomes sterilized air. However, in order to stably emit high concentration plasma cluster ions, there is a problem that the generation unit must be replaced periodically. In addition, OH radicals released into the atmosphere combine with hydrogen (H) to become water and have a short life, but when encapsulated with water molecules (H ₂ O), they have a long life but a weak sterilizing power. There was a problem that the toxicity was strong when breathing in the state of OH radical. Furthermore, in the discharge in the atmosphere, ozone, which is a highly reactive oxygen species with strong oxidizing power and used for sterilization and bleaching, is also generated. Therefore, it becomes unstable and highly sterilized air.

  As described above, Patent Literature 1 and Patent Literature 2 for sterilizing and sterilizing conventional air require generation of a sterilizing substance and air sterilization circulation, and the apparatus is complicated. Furthermore, it is sterilized by an indirect sterilization method that takes air into the device and sterilizes and disinfects it, then releases it to the atmosphere and returns it to the atmosphere. There was a problem that the body could not be sterilized and sterilized. Further, Patent Document 3 is a direct sterilization method in which unstable and strong sterilizing substances are generated from the air itself taken into the apparatus and used as sterilizing air. Although it is suitable for a purifier, there is a problem that it is not suitable for sterilizing air for human bodies, which has strong sterilizing power and is directly inhaled to sterilize respiratory organs and bathe to sterilize and disinfect the body.

  The present invention is based on such a conventional “not sterilizing air even if it becomes aseptic air. Also, sterilizing air is suitable for sterilizing the atmosphere but not suitable for sterilizing the human body. In addition to being able to sterilize the atmosphere by sterilizing the air, the respiratory organs can also be sterilized by respiratory inhalation, and the body can also be sterilized and sterilized by bathing. The purpose of the present invention is to provide an ion sterilizing air that can prevent and prevent the infection disease and improve or treat the disease safely and easily anytime and anywhere in daily life.

In order to achieve the object by solving the above-mentioned problems, the invention of claim 1 is the antibacterial activity of zinc ion, copper ion and / or silver ion for drinking water such as tap water, ground water, distilled water and mineral water. The metal ion antibacterial agent made of an inorganic carrier or organic carrier carrying metal ions is brought into contact with the stored water to transfer the metal antibacterial ions to the raw water, and the antibacterial ion water with increased ion concentration is ultrasonicated. As sterilization air that has sterilization action, sterilization action, antibacterial action from air sterilizer by assimilating by mist or cluster by evaporating and mixing by combining vibration or heater heating, or ultrasonic vibration and heater heating Since it can be sterilized by sterilizing by releasing it to the atmosphere, viruses, bacteria, fungi and slime molds floating in the atmosphere are killed. Can prevent diseases caused by airborne infections, and can sterilize and disinfect the respiratory organs by breathing inhalation, preventing infection of respiratory nose, throat, trachea, lungs and infected diseases Can improve and treat the symptoms of the skin, and further sterilize and sterilize the body by bathing, preventing the infection of the mucous membranes such as skin, eyes and genital area, and improving and treating the symptoms of infected diseases Ion sterilization air characterized by being able to.
In addition, the humidifier which can generate mist and a cluster can be used as the air sterilizer of the ion sterilization air of Claim 2 of this application, and is contained in this invention.

As described above, the ion sterilization air of the present invention brings the drinking raw water into contact with the metal ion antibacterial agent to take out the stable metal antibacterial ions into the drinking raw water (ion migration) and increases the ion concentration. Sterilized air that is assimilated by evaporating and mixing antibacterial metal ion water that is stable for a long period of time. Even if it is an ion with an electron level charge, it is extremely bactericidal, and when released into the atmosphere, it will disinfect and disinfect the ions. It kills bacteria by killing microorganisms such as viruses, bacteria, fungi, and slime molds floating in the atmosphere due to antibacterial action. In addition, since respiratory organs can be sterilized and sterilized by breathing inhalation, diseases that cause air infection of respiratory organs such as the nose, throat, trachea and lungs, specifically colds, influenza, pneumonia, tuberculosis, Can prevent rubella, bronchitis, sinusitis, etc. and improve or treat symptoms of infected diseases. In addition, since the bacteria, fungi, slime molds, etc. of the body can be sterilized and sterilized by bathing, the prevention of diseases caused by bacterial infection of the mucous membranes of the skin, eyes, vagina, etc. and the improvement and treatment of symptoms of infected diseases Can do. Ion sterilization air that can sterilize the atmosphere, sterilize the respiratory tract, and sterilize the body at the same time, as masks, gargles, and hand washing are necessary to prevent colds and flu. Has a comprehensive effect and can greatly contribute in the event of a major disaster or an outbreak of infectious diseases.
In addition, there is a similar effect on the beauty and health of pets such as dogs and cats, and the present invention can be applied and included in the claims.

  The safety of the present invention is based on ionic water obtained by ionizing drinking water using antibacterial metal ions that have been used for home appliances, kitchenware, office supplies, etc. and have been confirmed to be safe. Is safe. In particular, the fact that zinc is also contained in animals and plants such as fish and shellfish, meat, vegetables, and grains, which are foods, is an indispensable element for animals and plants, and is also used as a supplement. . Silver has long been known for its antibacterial activity and safety, such as tableware and silver teeth. If these metal ion antibacterial agents and additive-free drinking raw water are brought into contact with stored water, they become ionic water that is only electrically ionized in the state of the raw drinking water, and harmful substances such as conductive solutions of electrolytic ionic water. It is generally proved that it is compatible with the water quality standards and the food sanitation law standards, has no effect on animals and plants, and is safe for the human body. Therefore, even with this sterilized air that is assimilated by air and vaporization mixing of safe, colorless, odorless, tasteless, unscented, non-irritating, and non-toxic ionic water as it is with raw drinking water, there is no sense of incongruity and beauty. It can be used for health and provides the same safety effect as ionic water.

  In addition, as an economic effect of the present invention, since the ionized water obtained by using the raw drinking water of the present invention as ionized water is discharged into the atmosphere as ionized sterilizing air, the amount of the raw drinking water (ionic water) is reduced. In this case, tap water, groundwater, distilled water, mineral water, etc. are added to the drinking water to increase the amount of water stored, and the water stored in the ionic water has antibacterial, antibacterial and bactericidal effects in a short time. Therefore, ion sterilization air can be easily obtained anytime and anywhere, and it is economical.

  Furthermore, as a global effect, the surrounding air, respiratory organs, and body can be easily sterilized in daily life to prevent diseases caused by bacterial infections such as viruses. Being able to improve or treat can contribute to a comfortable life and a significant reduction in medical expenses. In particular, it is possible to use raw drinking water that can be easily obtained around the world, and it is safe and easy to create an environment that does not cause infectious diseases such as influenza, so it can be used easily and inexpensively even in developing countries such as Africa, Latin America, and Asia. It is an invention of ion sterilization air that is very effective worldwide for the beauty, health and prosperity of mankind.

1 is a cross-sectional view of an embodiment of an air sterilizer for producing ion sterilization air of the present invention. The method of assimilating ionic water and air according to the present invention by vaporization mixing and an example of a stirring member are shown in cross-sectional views. The Example of the warm air ion sterilization air of this invention and cold wind ion sterilization air is shown with sectional drawing. The sterilized air of the present invention is sterilized by sterilizing the nose, throat, trachea and lungs of the respiratory organs with an air sterilizer, and sterilization of the alveoli is clearly shown. The use example which sterilizes the skin, eyes, and mucous membranes of the body of the ion sterilization air of the present invention with an air sterilizer and ion sterilization air as eye drops are shown.

  In the practice of the present invention, a metal ion antibacterial agent comprising an inorganic carrier carrying an antibacterial metal ion is commercially available, for example, hydroxyabatite which is an inorganic carrier of Sangi Co., Ltd. “Avasida-Z carrying zinc ions”, “Avasida-AK carrying silver ions” and “Novaron AGZ330 carrying silver ions” on zirconium phosphate which is an inorganic carrier of Toa Gosei Co., Ltd., There is “Zeomic AW10D on which silver ions are supported” on zeolite that is an inorganic carrier of Sinanen Zeomic Co., Ltd. An inorganic carrier carrying an antibacterial metal ion used in one embodiment of the present invention is a trade name Avacidder-Z in which zinc ion is carried on hydroxyabatite, an inorganic carrier commercially available from Sangi Co., Ltd. Molded as a metal ion antibacterial agent. Hereinafter, it displays with a metal ion antibacterial material. A porous ceramic material (Japanese Patent Laid-Open No. 2006-69935) in which titanium and silver are combusted and synthesized jointly by Advance Co., Ltd. and Osaka Sangyo University is suitable as the metal ion antibacterial material of the present invention.

  Hereinafter, an embodiment of the present invention will be described in detail with reference to FIGS. In addition, the air | atmosphere of this invention is the gas around us also including the water vapor | steam which exists generally outdoors and indoors. Air is a gas that is sucked into or released from an air sterilizer in a specific atmosphere. The sterilizing air is air (including air) having sterilizing ability. The body is a part of the body that is in contact with the atmosphere. Mist is a fine mist of ionic water. A cluster is a collection of molecular water at the molecular level.

  FIG. 1 clearly shows the structure and operation of a desktop air sterilizer H for generating ion sterilizing air R according to an embodiment of the present invention by a sectional view. The stored water tank 3 is filled with the metal ion antibacterial material 1 and tap water 2 which is raw drinking water, and the tap water 2 is ionized. Alternatively, the metal ion antibacterial material 1 and tap water 2 may be brought into contact with stored water in a separate container so that ionic water is produced and supplied to the stored water tank 3. An appropriate amount of the ionized tap water 2 is supplied as ionic water 10 to the ionic water tank 9 by the valve 5 to maintain a constant water level. When the ultrasonic vibrator 12 is vibrated by the control of the ultrasonic vibration amplifier 11 to generate the ionic water mist M from the ionic water 10, the ionic water mist M is sucked into the atmosphere from the inlet 6 by the blower 8, and is filtered by the filter 7. The dust is removed and the air A that has passed through the air passage 13 is swept away by the amount of displacement and mixed at a sharp angle (stirred). Further, the vortex airflow K is generated by the vortex airflow generation stirring member 14a which is the stirring member 14 (not shown) for assimilating the vaporization and mixing, and the ionic water mist M and the air A are stirred to assimilate the vaporization and mixing. It becomes ion sterilization air R which is sterilization air, and is discharged from the blower outlet 15 to sterilize the air and sterilize it. A portable air sterilizer (not shown) can be used anywhere and anytime.

  FIG. 2 shows a method and a stirring member for vaporizing and mixing ionic water mist M into air A and assimilating it, and is another embodiment other than the vortex air flow generating stirring member 14a of FIG. FIG. 2 (a) is an example of a fan system that achieves assimilation of vaporization and mixing by agitation by rotation of the fan agitating member 14b. The rotation of the fan agitating member 14b is set to automatic rotation by blowing air from the blower 8 or electric rotation. Also good. FIG. 2 (b) shows an example of a valve system for assimilating vaporization and mixing by agitation by vibration of the valve agitating member 14c. The vibration of the valve may be automatic vibration by blowing air from the blower 8 or electric vibration. Also included is ultrasonic vibration agitation. FIG. 2 (c) shows an example of a venturi system that achieves assimilation of vaporization and mixing by agitation based on a change in the velocity of the air flow by the venturi agitating member 14d. In addition, if it can stir, it will not be this limitation. In addition, it is desirable that the ion state of the ion sterilization air R can be selected from mist and cluster by switching the operation of the stirring member 14 (not shown).

  FIG. 3 shows warm air of the ion sterilizing air R discharged from the outlet 15. FIG. 3B shows an embodiment in which a heater 16 is provided in front of the air outlet 15 so that hot air ion sterilizing air is discharged from the air outlet 15. It is an example. FIG. 3 (b) shows an embodiment in which a cooler 17 is provided in front of the air outlet 15 so that cold air ion sterilizing air is discharged from the air outlet 15. In addition, Fig. 1 shows a normal temperature type without hot or cold air.

  FIG. 4 shows an example of use in which a hood 18 is attached to the air outlet 15 of the air sterilizer H, the discharge direction of the ion sterilizing air R is restricted and throttled, and the respiratory organ N is sterilized and sterilized. (I) By sterilizing the sterilizing organs R 1, throat N 2, trachea N 3, and lung N 4, which are respiratory organs N, by sterilizing the ion sterilizing air R released from the air sterilizer H into the atmosphere. An illustration showing the ability to prevent and improve symptoms of infected diseases such as colds that are airborne diseases, new influenza such as N5H1, pneumonia, rubella, tuberculosis, bronchitis, throat inflammation, sinusitis, etc. It is a figure, and by using a portable air sterilizer (not shown), the respiratory organs N can be sterilized and sterilized at any time, such as on the go. However, if ionic water (not shown) assimilated by vaporization and mixing with the ion sterilizing air R is a mist-like mist, it adheres as a water droplet to the nose N1, so the odor is dull due to the deodorizing effect of the ions. There is a case. However, the sense of smell returns when ionic water (not shown) attached to the nose N1 is removed. FIG. 4 (b) is an enlarged view of the alveoli 19 of the lung N4. Direct sterilization and alveoli in which ions 21 of the ion sterilization air R directly contact the bacteria 22 in the alveoli 19 and exert a strong sterilizing power. The sterilization effect can be clearly seen from the inside of 19, and the ion sterilization air R is displayed only with ions 21. It has also been shown that the sterilization of the bacteria 22 in the alveoli 19 by the medicine 23 such as infusion, injection, and swallowing is an indirect sterilization in which the blood vessel 20 is sterilized indirectly. Since the alveoli 19 are 1 to 3 microns, ion water (not shown) of the ion sterilization air R is suitable for sterilization in the alveoli 19 in a cluster state at the molecular level. A mist of mist with large particles does not enter alveoli 19 but coughs.

  FIG. 5 shows an example of use in which a hood 18 is attached to the air outlet 15 of the air sterilizer H, the discharge direction of the ion sterilizing air R is restricted and throttled, and the body B is sterilized by sterilization. As the ionized water (not shown) of the ion sterilizing air R, a damp mist with moisture is suitable. In FIG. 5 (a), the skin B1 and the mucous membrane (not shown) such as the genital area, the eye B2 with the eyelids wide open, and the hand B3 are sterilized by sterilizing by sterilizing with the ion sterilizing air R. It is an illustration, improvement and treatment of atopic dermatitis, sterilization and treatment of wounds, prevention and deodorization of aging odor, disinfection and deodorization of limbs, sterilization and deodorization of mucous areas such as genital area, especially spray etc. It can sterilize and deodorize bent cavities such as vagina that cannot be reached by jetting. FIG. 5 (b) is an enlarged view showing that the eye B2 can be sterilized and discomforted without causing a sense of incongruity such as irritation in a state or sense of viewing a normal thing using the ion sterilizing air R as an air sterilizing eye drop. .

DESCRIPTION OF SYMBOLS 1 Metal ion antibacterial material 2 Tap water 3 Reservoir tank 4 Water supply cap 5 Valve 6 Inlet 7 Filter 8 Blower 9 Ionized water tank 10 Ionized water 11 Ultrasonic vibration amplifier 12 Ultrasonic vibration element 13 Blower path 14 Stirring member 14a Vortex air flow generation Stirring member 14b Fan stirring member 14c Valve stirring member 14d Venturi stirring member 15 Air outlet 16 Heater 17 Cooler 18 Hood 19 Alveoli 20 Blood vessel 21 Ion 22 Bacteria 23 Drug A Air B Body B1 Skin B2 Eye B3 Hand H Air sterilizer K Eddy current M Ion water mist N Respiratory organ N1 Nose N2 Throat N3 Trachea N4 Lung R Ion sterilization air

Claims (2)

  A metal ion antibacterial agent comprising an inorganic carrier or an organic carrier in which drinking water such as tap water, ground water, distilled water, mineral water, etc. is loaded with antibacterial metal ions such as zinc ions, copper ions and / or silver ions; The antibacterial ion of metal is transferred to the raw water by contacting with the stored water, and the antibacterial ion water with increased ion concentration is made into mist or cluster by ultrasonic vibration or heater heating, or a combination of ultrasonic vibration and heater heating. Since it can be assimilated by inhalation air and evaporative mixing and released from the air sterilizer to the atmosphere as sterilizing air with sterilizing action, sterilizing action, and antibacterial action, the atmosphere can be sterilized and sterilized, By killing viruses, bacteria, fungi, and slime molds floating in the atmosphere to prevent airborne diseases, and by breathing Since the respiratory organs can be sterilized and sterilized, infections of the respiratory organs such as the nose, throat, trachea, and lungs can be prevented, and symptoms and symptoms of the infected diseases can be improved. Since it can be sterilized, ion-sterilized air is characterized in that it can prevent infection of mucous membranes such as skin, eyes, and genital area, and can improve and treat symptoms of infected diseases.   The air sterilizer according to claim 1, wherein the air is sterilized by assimilating and sterilizing the antibacterial ionized water and air by vaporization and mixing, and the air is sterilized and discharged.

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