KR20230090521A - Anti-virus system, disinfection apparatus including the same, and medical device for making mucosal vaccine using the anti-virus system - Google Patents

Abstract

The antivirus system of the present invention has an air inlet for inducing air from the quarantine target and an air outlet for discharging air, and the airborne virus in the air disposed between the air inlet and the air outlet is transferred to a liquid medium as an OH radical aqueous solution. A weakening, inactivating, sticking and removing unit is provided so that air is sucked in from the outside air or quarantine target to kill and remove the adhesion of the virus or bacteria, so that safe clean air can be sent to the outside air or quarantine target. The quarantine targets of the anti-virus system are personal respirators, indoor respiratory quarantine equipment for several people, disinfection equipment for passages through which people and goods enter and exit, and virus death or adhesion to air conditioners, warmers, air purifiers, and ventilation devices of various air conditioning facilities. By distributing units that can be removed by dispensing, daily life, work life, and economic activities are made smooth. In addition, in the process of removing the adhesive with the adhesive unit, a mucosal vaccine with more safety is prepared by operating a medical device that prepares a mucosal vaccine, and it is simply applied orally several times until antibodies (antitoxin) are surely generated. By allowing vaccination to be administered, there is no pain, body aches or serious side effects (death and fatal side effects) as side effects of vaccines, so that people can freely engage in daily life and various activities even in the era of the with virus.

Description

Anti-virus system, disinfection apparatus including the same, and medical device for making mucosal vaccine using the anti-virus system }

The present invention relates to an antivirus system that removes viruses floating in the air and sends safe clean air to a quarantine target, quarantine equipment equipped with the same, and a medical device for preparing a mucosal vaccine through a virus removal process of the quarantine equipment.

The recently generated respiratory virus COVID-19 is a new virus different from SARS or MERS, and many people are infected and fear of infection prevents normal daily life or economic activities. In addition, since existing vaccines and treatments do not work for new viruses, overall social functioning is inevitable until vaccines and treatments are developed. In addition, it is not a local problem, but it is developing as a pandemic that sweeps the world, causing astronomical damage in many ways.

In addition, it takes a lot of time and money to develop a vaccine for a new virus, and even if a treatment or vaccine is developed, a new vaccine may have to be developed again if a variant or new virus occurs.

When a new respiratory virus occurs, it is common to wear a mask, which is relatively convenient to use, but has a problem that quarantine is incomplete, so it is not a fundamental solution. In addition, social distancing, which refrains from various gatherings and avoids visiting places with many people, is effective in preventing infection, but it cannot avoid problems that significantly reduce the daily life and economic activities of citizens.

In addition, negative pressure is applied to the ward where the patient is hospitalized so that the exhaled air from the patient does not leak out of the ward. However, since the virus may float in the air itself in the hospital room, a person entering the hospital room is inevitably exposed to a dangerous environment. Therefore, it is necessary to discharge safe clean air from which all germs and viruses floating in the patient's respiratory air are removed to indoor air or external air.

The fundamental difficulty in preventing respiratory viruses is that mutations and mutant viruses continue to appear, making it difficult to cover with existing vaccines, and side effects of vaccines are also a concern.

Therefore, it is necessary to develop respiratory virus quarantine equipment that can prevent various respiratory viruses and all mutated viruses and has no side effects. In addition, it is necessary to immediately develop a mucosal vaccine optimized for each individual by catching the virus floating in the exhaled air of the patient at the same time as a new virus outbreak. The development of mucosal vaccines without side effects optimized for the mucous membranes of the breathing passages of wearers of respiratory quarantine equipment is particularly necessary for patients with underlying diseases, special constitutions, and the elderly.

In this regard, Korean Utility Model Registration No. 20-0251333 as a prior art provides an air purifier equipped with an ozone disinfection device, but it is difficult to adopt because the device is complicated and it is difficult to consider it harmless to the human environment in that it uses ozone. .

In addition, Korean Patent Publication No. 10-2012-0082982 provides an air sterilization system and method for an indoor space with indoor air flow, but sterilizing water containing hypochlorous acid by electrolyzing chlorine-containing water is produced in the upper part of the room. method of sowing in Since hypochlorous acid is inhaled through breathing, it is difficult to adopt it because it is difficult to avoid controversy about harm to the human body.

Utility model registration No. 20-0251333 Patent Publication No. 10-2012-0082982

The present invention has an object to solve the side effects that occur during the spray disinfection and mass production vaccination process of the quarantine process of the respiratory disease virus spreading as a pandemic (pandemic) around the world.

An object of the present invention is an antivirus system equipped with a virus removal unit that removes all bacterial viruses floating in inhaled air, and a capturing device that captures viruses floating in exhaled air. want to provide

In addition, a virus removal unit and a medical device for preparing a mucosal vaccine can be easily used at a low price.

In the present invention, the process of removing viruses floating in the exhaled air of personal respiratory protection equipment by irradiation or adhesion with an antivirus system is a mucosal vaccine making process ), and consists of medical equipment that dispenses respiratory mucosal vaccines optimized for respirator wearers.

In addition, a virus removal unit that reliably removes viruses floating in the inhaled air that people breathe is provided, and the process of preparing the mucosal vaccine removes the virus It is the same as the unit's virus removal process. That is, the virus removal process of the removal unit becomes a mucosal vaccine preparation process.

That is, the present invention is a medical device that automatically prepares a respiratory tract mucosal vaccine, and is a medical device that recycles a virus to be removed in a virus removal unit as a mucosal vaccine.

The antivirus system of the present invention is a virus removal unit having an air inlet and an air outlet, and a vegetable medium OH radical chamber contained in an adhesion tank for attenuating (poisoning) or weakening and inactivating viruses included in the unit. includes The present invention provides a respiratory air flow that removes viruses floating in the exhaust air of the quarantine target by the anti-virus system, returns safe clean air to the quarantine target, and discharges it indoors or outdoors or into the atmosphere.

It is possible to optimize the wearer of the antivirus system by adjusting various conditions of the virus in detailed steps in consultation with professional medical personnel so that an optimized mucosal vaccine is created in the breathing passage of the virus adhesive removal unit.

That is, an air inlet through which air is introduced from the quarantine target and an air outlet through which air is discharged, and a virus adhesion removal unit disposed between the air inlet and the air outlet, wherein the virus removal unit weakens or inactivates viruses. Claim 1, which is equipped with an OH radical chamber that is equipped with an OH radical chamber to inhale external air and air from the quarantine target to remove viruses or bacteria from the virus adhesion removal unit and send clean air to the outside air or quarantine target. Using the anti-virus system including the OH radical chamber according to claim 1, collecting the weakened and inactivated virus between the air outlet of the sticking removal unit and the respiratory tract; weakening the captured virus over time; It is possible to provide a method for preparing a mucosal vaccine using an anti-virus system, including; and inoculating the weakened virus to a user.

In addition, the method of preparing a mucosal vaccine using the anti-virus system according to the present invention is to adjust the voltage so that the operation of the adhesive removal unit can be adjusted in response to the age, health condition, underlying disease, and special constitution of the user. do.

In addition, in the method of preparing a mucosal vaccine using the anti-virus system according to the present invention, the adhesive removal unit is equipped with a virus collector to collect viruses, or the user's nasal cavity / nasal cavity is scraped with a sample swab soaked in adhesive liquid The method further includes collecting a collected disease virus sample and using the collected virus as a sample for preparing a user-customized (optimized) mucosal vaccine.

In addition, the method of preparing a mucosal vaccine using the anti-virus system according to the present invention, in the step of collecting disease virus samples, is collected every day for 15 days, and antigen sample storage box that can be stored for 15 days in the order of elapsed time after collection It is provided so that the antigen sample can be put in the storage box and inoculated into the user's mucous membrane in the order of elapsed time after collection.

Looking specifically at the virus removal process of the virus removal unit, an air inlet for inducing air from the quarantine target and an air outlet for discharging air are provided, and the air outlet and Between the air inlets, an OH radical rotation guide chamber is provided with a virus adhesion unit that deactivates and adheres viruses floating in the exhaled air, and treats viruses floating in the air inhaled from outside air or quarantine targets. Provides an anti-virus system capable of sending safe clean air to outside air or to a quarantine target by passing through the adhesion chamber. In the present invention, treating a virus includes any treatment that destroys, weakens, or inactivates a virus.

In addition, the quarantine target equipped with the anti-virus system of the present invention is a personal portable bag respirator, an updraft quarantine facility for respiratory droplets from multiple people indoors, an access passage quarantine device installed in the passage of travelers or delivery goods, and virus-removed air By creating air purifiers, quarantine air conditioners (including hot air fans), and descending airflow, the passenger cabin quarantine facilities connected to air conditioning facilities in various transportation facilities and the quarantine facilities in facility spaces connected to air conditioning facilities in underground and ground facilities are exemplified. . Therefore, all daily activities can be freely conducted by circulating safe clean air from which viruses have been removed through the virus adhesive removal unit provided in the interior of churches, classrooms, restaurants, residences, offices, conference rooms, karaoke rooms, and arcades.

In addition, the present invention provides a collection device for collecting viruses processed between the quarantine target of the anti-virus system and the adhesion chamber of the virus adhesion removal unit and the air outlet. A more optimized mucosal vaccine is obtained by adjusting the state of the weakened and inactivated virus of various states of the virus collected as described above according to the prescription discussed with the mucosal vaccine expert.

In addition, the medical device for preparing the mucosal vaccine, for which safety is the top priority, must be prepared under the guidance of a doctor and pharmacist specializing in skin, respiratory and digestive systems, and by collecting academic papers and medical record data recognized in the medical field in this field, A manual table for operating the medical device can be provided so that the medical device can be operated more safely and without side effects.

The system applies a virus adhesive removal unit having an air inlet and an air outlet, and a vegetable medium OH radical chamber included in an adhesive room that weakens and inactivates viruses included in the unit, Removes viruses floating in the exhaust air of the quarantine target , It consists of an anti-virus system that indicates the breathing air flow that returns safe clean air to the quarantine target and discharges it to indoors or outdoors or to the atmosphere.

And, as an embodiment to which the anti-virus system of the present invention is applied, a personal anti-virus respirator including an air hose for inhalation, an air hose for discharge, and a virus removal unit having a virus adhesion chamber is provided. In addition, it is possible to configure a public anti-virus system including a virus removal unit having an air hose or duct for inhalation, an air hose or duct for discharge, and an adhesion chamber for adhering viruses. Blowers may be provided in each of the air hose for discharge and the air hose for intake. Each of the blowers may start operation by a sensor that detects the discharge of exhaled breath and intake of inhaled breath. AC power can be used.

The disinfection equipment equipped with the anti-virus system including the sticking removal unit may constitute a respiratory disinfection equipment for personal movement and a disinfection equipment for public use. In addition, in the anti-virus system, a passage quarantine equipment equipped with a virus adhesive removal unit can be configured to disinfect visitors and delivered goods. The antivirus system can be applied to existing air conditioning facilities installed in passenger boarding spaces, various underground facility spaces, and ground facility spaces of various transportation institutions equipped with the antivirus system.

Aisle disinfection equipment including the sticking removal unit is installed at the entrance and exit of airports, port customs and important institutions, and delivery goods tunnels, and transportation ventilation equipment is installed in passenger cabins of buses, railroad cars, and aircraft, and is installed in underground facility spaces. The disinfection equipment of the air conditioner is installed in underground shopping malls, subways, platforms and tunnels, and the disinfection and air conditioning equipment in the ground facility space is installed in apartments and buildings.

In addition, as military equipment (gas mask) in preparation for bacterial warfare of biological weapons, it provides a basic system constituting a respiratory system that removes viruses.

The present invention reliably removes viruses floating in a small amount of respiratory air with good cost performance. According to the present invention, regardless of the appearance of a new virus or the mutation of a virus, it is possible to breathe safe clean air in which all germs and viruses floating in a small amount of inhaled air that a person breathes are killed or adhered to and removed.

The virus removal unit of the anti-virus system can quickly remove the virus floating in the small amount of air discharged from the exhalation port of the individual respiratory tract and can be used as a mucosal vaccine, so that the respiratory tract mucosal vaccine optimized for the patient Develop immediately so that they can inoculate themselves.

Therefore, it can contribute to the research and development of individual optimized mucosal vaccines, prevent serious side effects caused by mass-produced vaccinations, and easily cope with mutated and mutated viruses.

A new mucosal vaccine preparation medical device provides a collector or a collection bottle that can safely and easily handle lacerated (killed) viruses and weakened inactive viruses. Provided is a medical device for preparing a mucosal vaccine through a mucosal vaccine preparation process that optimizes the degree of attenuation and inactivity of the collected virus for each individual using this.

In the medical device, a sample storage box that clearly shows the elapsed time by date after the collection of the collected antigen sample is provided, so that the general public can safely and simply prepare the respiratory mucosal vaccine, and inoculate up to 15 times safely several times (oral administration ) enables immune memory, so that antitoxin is immediately generated when a respiratory disease virus invades.

Therefore, it is possible to inoculate the mucosal membrane of the respiratory tract without side effects by preparing the virus from the confirmed patient as a mucosal vaccine optimized for the patient's body. As a vaccine against the mutant virus, it is preferable to substitute the mucosal vaccine instead of inoculating the mRNA vaccine with a booster vaccine.

In addition, by being able to wear and carry personal portable respirators, the activities of virus infected or quarantined persons can be freed. In addition, public breathing equipment is installed in churches, classrooms, restaurants, and various indoor meeting places to restore normality to daily activities, and by providing quarantine ventilation devices for attaching air conditioning facilities in the passenger space of transportation institutions and underground, underground shopping malls and other underground businesses Facilities are becoming active, and by installing quarantine ventilation devices for air conditioning facilities on the ground, daily life and work life of the population living day and night in buildings and apartments are enabled.

In addition, in preparation for virus germ warfare of biological weapons, a virus removal respirator or a respirator that adheres and removes viruses can be applied to the gas mask.

In addition, if the barn quarantine equipment to which the anti-virus system of the present invention is applied is installed in the ventilation system of the livestock barn, the quarantine equipment installed at the same time as the outbreak of bird flu, swine fever, etc. can be operated and immediately blocked.

1 is a basic conceptual diagram of an anti-virus system according to the present invention.
2a and 2b show a conceptual diagram and a longitudinal cross-sectional view of one embodiment, respectively, of a virus removal unit including a vegetable medium OH radical seal (chamber) used in the antivirus system according to the present invention. Figure 2c shows a part of the circulation line in the virus removal unit containing the vegetable medium OH radical chamber (chamber) used in the antivirus system according to the present invention.
Figure 3 shows the airflow and mucosal vaccine preparation process of the antivirus system passing through the vegetable medium OH radical room and the virus that is weakened and inactivated and adhered to the liquid medium (liquid medium collector) and the quarantine target (respiratory system, etc.) indicate
4 shows an embodiment of a state in which a portable bag unit is worn by applying the air flow ( FIGS. 5A and 5B ) of the antivirus system 10 according to the present invention.
5 shows the air flow (FIG. 3) of the anti-virus system according to the present invention for indoor use to create an ascending airflow that prevents virus transmission by respiratory air and droplets in the air, thereby circulating safe clean air from which viruses are removed. Indicates an embodiment of the state.
6 shows an embodiment of a state in which the anti-virus system according to the present invention is installed in an airport, a port, or a passageway through which the public enters or exits, or a goods transport passage for disinfection of delivered goods.
FIG. 7a shows the application of the anti-virus system according to the present invention to an air purifier, FIG. 7b applies to an air conditioner (heater), FIG. 7c shows application to a quarantine ventilation system installed in the boarding space of passengers in transportation, and FIG. 7d shows It is applied to quarantine ventilation facilities of air conditioning facilities installed in ground or underground spaces, and each shows an embodiment of the above application state.
8 is a flow chart showing a method for preparing a mucosal vaccine according to the present invention. Active antigens (bacterial virus cells) attached to an OH radical aqueous solution are collected and subdivided, and weakened and inactivated over time to be used as a mucosal vaccine. It is a flow chart.
9 is an exemplary view of a storage box 350 for storing antigen samples (virus adhesion solution) for each elapsed time after the collection.

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

1 is a basic conceptual diagram of an anti-virus system according to the present invention.

The basic concept is to remove the virus floating in the air discharged from the quarantine target 101 and send it back to the quarantine target or discharge it to the outside. That is, it creates an air flow that circulates safe clean air.

The antivirus system 10 of the present invention includes an air inlet 12, an air outlet 14, and a virus removal unit 100, and the virus-enriched air entering through the air inlet 12 is transferred to the virus removal unit ( 100), the viruses floating in the air are killed or adhered to and removed by electromagnetic waves, ultraviolet rays, or OH radicals, and safe clean air from which viruses are removed is sent to the quarantine target 101 or the outside.

In addition, air from the virus removal unit 100 may be sent to an optimized vaccine preparation medical device 300 including a collector, for example, to filter out the treated virus, or it may be used as a mucosal vaccine optimized for each individual by attaching the air.

A blower 16 is provided at the air inlet 12 or the air outlet 14 of the virus removal unit 100 to help circulate air between the virus removal unit 100 and the quarantine target 101, and if necessary, outside air. Alternatively, the air 20 to be treated is introduced, or clean air from which viruses are removed is sent to the outside.

In each of the following examples, a specific device is exemplified for convenience of description and understanding, but an electromagnetic wave irradiation device, an ultraviolet irradiation device, or a liquid medium OH radical device may be selected and used. The OH radical device is a type of hydroxyl generator and works in an aqueous solution of general adhesive that can attach viruses.

2a and 2b are a conceptual diagram and one implementation of a virus removal unit (100: virus removal unit) that inactivates and adheres to the virus with an aqueous solution in the OH radical chamber 105 of the vegetable medium used in the antivirus system according to the present invention Each of the longitudinal cross-sectional views of the example is shown.

The air to be treated 20 from the disinfection target 101 of the antivirus system and the aqueous solution of the vegetable medium of the OH radical chamber 105 are put together in a circulation line 117, which is a kind of guide hose, and mixed and brought into contact with each other Viruses floating in the air are removed by being adhered to by the adhesive force of the aqueous solution, and safe clean air from which viruses are removed can be returned to the disinfection target (101).

The aqueous solution of the vegetable medium of the OH radical chamber 105 is formed by dissolving the plant medium powder in the OH radical generating chamber 105a to a saturation state, and is formed as a liquid medium maintaining adhesiveness.

Equipped with a circulation line (117), for example, a circulation hose and a pump 111, for mixing and circulating the liquid medium having the adhesiveness and the air 20 to be treated from the quarantine target 101 By mixing and contacting each other, the floating viruses adhere to the liquid medium.

In addition, a catalyst electrode 145a and a titanium electrode 145b are provided in the OH radical generating chamber 105a, and the standard and direct current range (eg, 6V to 18V) are adjusted according to the size of the quarantine target. In addition, an electrode adapted to AC is used in the OH radical generation chamber 105a of the fixed removal unit 100. For mobile systems, DC power is used.

The OH radical aqueous solution of the vegetable medium flows along the circulation line 117 through the connector 115 in the OH radical generation chamber 105a, and then is sucked into the pump 111 through the connector and circulated again. The air entering the pump 111 includes the user's exhaled air and air entering from the atmospheric intake port 115b.

The air to be treated and the OH radical aqueous solution of the vegetable medium are mixed together into the circulation line 117, for example, the circulation hose, and preferably flowed over 10 m to mix, contact, or collide with each other. Thus, the virus floating in the air is killed or weakened by OH radicals, and the inactivated virus is made to adhere to the liquid medium. The aqueous solution of the liquid medium continues to circulate along the circulation line as it adheres the virus, and the virus floating in the air continues to adhere to the aqueous liquid medium. This embodiment also has the advantage of adhering and removing not only viruses but also fine dust.

Figure 2c shows a part of the circulation line 117 in the virus removal unit containing the vegetable medium OH radical seal (chamber) used in the antivirus system according to the present invention.

By twisting the metal filter 117a into the circulation line 117, the length of the circulation line can be significantly reduced and the weight can be lightened, which is particularly advantageous when applied to the portable personal respirator 150.

Meanwhile, the treated air from which viruses are removed is separated from the air in the gas-liquid separation chamber 105b and discharged to the quarantine target 101 or the outside through the outlet pocket 113. The outlet pocket 113 has a buffer function and also collects leaked liquid. It is preferable to send the leaking liquid (113a) back to the pump (111).

Although the gas-liquid separation chamber (105b, air-liquid separation chamber) is shown at a low position in the drawing, it is preferable to install it at a position as high as possible. More preferably, the gas-liquid separation chamber 105b is installed at a position not lower than the OH radical generation chamber 105a. The virus killed or weakened by OH radicals adheres to the viscous aqueous solution, and only air is discharged to an outlet pocket through the gas-liquid separation chamber 105b.

Killed or weakened viruses attached to the aqueous solution are collected by connecting a collector such as a collector bottle to the circulation line 117 to collect the aqueous solution of the liquid medium to which the inactivated virus is attached to the collector to make a mucosal vaccine for the user himself. can be used Alternatively, the gas-liquid separation chamber 105b may have a collecting bottle or a filter so that the gas-liquid separation chamber 105b may have a function of a means for collecting weakened viruses for mucosal vaccines. That is, the virus removal process of the virus removal unit 100 including the OH radical generation chamber 105a can also be applied to the mucosal vaccine making process.

Applying the OH radical chamber 105 including the OH radical generating chamber 105a to a mobile respirator to prevent leakage of the aqueous solution of the chamber 105 when moving A valve to prevent liquid from coming out through the air outlet or air inlet It is desirable to have. It is good to have check valves to prevent reverse flow also in the connection parts on the inlet side of the pump 111 . The leaked solution is collected at the bottom of the outlet pocket 113 and connected to the pump inlet 111a to be sucked up to the OH radical generation chamber 105a.

In addition, preferably, an inlet pocket (113a) is also provided on the inlet side of the OH radical chamber 105 to act as a buffer for sucked air.

Preferably, blowers 16 are installed at the air outlet 14 and the air inlet 12. In particular, the blower of the air outlet 14 may send more air than the user's breathing volume to the respirator worn by the user. Therefore, fresh air containing oxygen is sufficiently inhaled through the air inlet.

Figure 3 shows the airflow and mucosal vaccine preparation process of the antivirus system passing through the vegetable medium OH radical room and the virus that is weakened and inactivated and adhered to the liquid medium (liquid medium collector) and the quarantine target (respiratory system, etc.) indicate

Killed or weakened viruses attached to the aqueous solution are collected by connecting a collector such as a collector bottle to the circulation line 117 to collect the liquid medium solution to which the inactivated virus is adhered to the collector to make a mucosal vaccine for the user himself. can be used Alternatively, the gas-liquid separation chamber 105b may have a collecting bottle or a filter so that the gas-liquid separation chamber 105b may have a function of a means for collecting weakened viruses for mucosal vaccines. That is, the virus removal process of the virus adhesive removal unit 100c including the OH radical generation chamber 105a can also be applied to the mucosal vaccine making process.

The virus removal process may be applied to a mucosal vaccine making process.

The blower of the breathing air outlet 14 or inlet 12 worn by the user can send more air to the respiratory tract than the respiratory volume of the wearer (user). Therefore, it is possible to breathe with clean air in which pollutants such as fine dust and disease bacteria and viruses are removed. Applying the OH radical chamber 105 including the OH radical generating chamber 105a to a mobile respirator to prevent leakage of the aqueous solution of the chamber 105 when moving A valve to prevent liquid from coming out through the air outlet or air inlet It is desirable to have. It is good to have a check valve to prevent reverse flow at the inlet side connection of the pump 111. The leaked solution is collected at the bottom of the outlet pocket 113 and connected to the pump inlet 111a to be sucked up to the OH radical generation chamber 105a.

In addition, preferably, an inlet pocket (113a) is also provided on the inlet side of the OH radical chamber 105 to act as a buffer for sucked air.

Preferably, blowers 16 are installed at the air outlet 14 and the air inlet 12. In particular, the blower of the air outlet 14 may send more air than the user's breathing volume to the respirator worn by the user. Therefore, fresh air containing oxygen is sufficiently inhaled through the air inlet.

The inhaled virus-containing air is injected into the OH radical chamber 105 of the vegetable medium through the pump inlet ( ), and the OH radical generated in the OH radical chamber 105 treats (disappears, weakens or deactivates) the virus, It is collected by sticking to a vegetable liquid medium.

Killed or weakened viruses attached to the aqueous solution are collected by connecting a collector such as a collector bottle to the circulation line 117 to collect the aqueous solution of the liquid medium to which the inactivated virus is attached to the collector to make a mucosal vaccine for the user himself. can be used

Alternatively, the gas-liquid separation chamber 105b may have a collecting bottle or a filter so that the gas-liquid separation chamber 105b may have a function of a means for collecting weakened viruses for mucosal vaccines. That is, the virus removal process of the virus removal unit 100 including the OH radical generation chamber 105a can also be applied to the mucosal vaccine making process.

The air flow of the anti-virus system passes the virus-enriched air through the OH radical chamber 105 of the vegetable medium in order to surely remove a small amount of the virus suspended in the air. In the OH radical chamber 105, the virus is weakened or inactivated while adhering to the aqueous solution of the vegetable medium. Some of the killed or weakened viruses adhering to the aqueous solution are collected by filtering the aqueous solution and prepared as a mucosal vaccine, while the remainder continue to rotate as adhered to the aqueous solution and are decomposed by hydroxyl groups.

The air outlet 14 of the virus removal unit 100 is connected to the respirator 150 worn by the user 152 by the air hose 112 for inhalation, and the air inlet 12 of the virus removal unit 100 is connected to the respirator 150 by an air hose 112 for exhalation.

The respirator 150 is provided with a check valve (not shown) to prevent a backflow of air and at the same time sufficiently inhale air from an atmospheric inlet to supply it to the user so that oxygen deficiency does not occur.

Also, in the antivirus system, atmospheric or indoor air containing various viruses is treated (sterilized, weakened or inactivated) and provided to the breath after adhering and removing viruses. To this end, outside air is allowed to pass through the virus removal unit 100 and then provided for respiration. In addition, since there is a possibility that the exhaled air also contains viruses, the viruses are killed and removed, and then safe air is discharged.

This breathing antivirus system can be configured for mobile personal use, and can be configured as quarantine equipment in a public indoor space if necessary.

Blowers 16 are connected to the air hose 112 for inhalation and the air hose 122 for exhalation, respectively, and the operation of each blower can be controlled by a sensor that detects exhalation and inhalation.

4 shows an embodiment in which the anti-virus system 10 having the virus removal unit 100 and the respirator 150 according to the present invention is placed in, for example, a bag 161 to be portable.

In the portable virus removal unit 100, an air hose 112 for inhalation and an air hose 122 for exhalation are connected between the virus removal unit 100 and the respirator 150. The air inhaled by the wearer is external air that passes through the virus irradiation room or the adhesion room, is inhaled through the inhalation air hose 112 through the inhalation port of the respirator, and the air coming out of the wearer's lungs is exhaled in the respirator 150. The air hose 122 is passed through the irradiation chamber or the adhesion chamber. Accordingly, it is possible to breathe safe clean air from which viruses are removed in any environment.

It is preferable to provide a blower to the respirator 150 or the air hoses 112 and 122 and operate the blower according to the expiratory force and intake force.

It is also possible to combine the gas mask and quarantine respirator by attaching the air hose of the virus removal unit 100 to the existing gas mask.

5 shows the circulation state of the updraft to prevent virus transmission by respiratory air and droplets of several people by applying the anti-virus system 10 according to the present invention to indoor breathing.

That is, an embodiment of quarantine equipment that creates an upward flow of safe clean air by installing the anti-virus system 10 according to the present invention for indoor space and installing it in a restaurant, cafe, classroom, office, lecture hall, conference room, etc. indicates This prevents the spread of the virus to the next person by respiratory droplets from multiple people.

The anti-virus system 10 passes the indoor/outdoor or air to be treated through the electromagnetic wave irradiation room or ultraviolet irradiation room of the virus removal unit 100 or the aqueous solution adhesion room of the vegetable medium OH radical chamber, and safe clean air from which viruses are removed is released through the air outlet Through (14), it is sent to the indoor space of the quarantine target or discharged into the outdoor atmosphere. It is desirable to form an updraft in the room.

Blowers 16 are installed at the air inlet 12 and the air outlet 14 of the adhesive room or irradiation room of the virus removal unit 100 to promote the circulation of air, and at the same time create an ascending air flow, so that the irradiation room or the adhesive room It is induced to flow toward the virus removal unit 100 through the hood 19 disposed at the upper end of the air inlet 12. Accordingly, the exhaled air and droplets of various people in the room go up according to the ascending air flow, pass through the irradiation room or the adhesion room, and form an ascending air flow with safe clean air from which viruses in the air are removed. The role of the ascending airflow is that the air containing the virus does not spread to the person next to it and goes up along the rising airflow and is sucked into the virus removal unit 100 so that the virus is removed. The virus removal unit 100 includes a vegetable medium OH radical chamber.

6 shows an embodiment of a state in which the antivirus system 10 according to the present invention is installed in a passage through which the public enters and exits, such as an entrance and exit passage of an airport or a port or a public building, or a delivery passage for quarantine of delivered goods.

The aisle prevention room 200 has front and rear doors closed, and a blower 16 is provided to suck indoor air and blow it to an electromagnetic wave irradiation room or an adhesion room. The blower is a blower made of an air curtain fan and is installed in one or more sets long on the ceiling. The air flow passes through the virus removal unit 100 and blows out through both side walls of the passage. The air sour removes the virus by blowing the air to be treated into the irradiation chamber or the OH radical chamber by suspending the virus attached to the person and cargo in the air. The unit 100 applies a vegetable medium OH radical chamber.

Accordingly, it is possible to block transmission of viruses through goods or travelers, thereby enabling free travel.

7A to 7D are examples of a 4-field quarantine target 101 to which the removal unit 100 having a sticking chamber for removing viruses according to the present invention is applied. 7A is for an air purifier 210 to which the virus removal unit 100 is applied, FIG. 7B is to an air conditioner 220 to which the virus removal unit 100 is applied, and FIG. 7C is a transportation institution that is a quarantine target 101 7d shows a state in which the virus removal unit 100 is applied to disinfect the traffic cabin, and FIG. shows a system that provides

As shown in FIGS. 7A and 7B , the virus removal unit 100 of the antivirus system 10 is applied to the air purifier 210 and the air conditioner 220 (including a hot air fan) to provide clean air from which viruses are removed. .

As a result, when there is a person infected with the virus in the room, the air purifier or air conditioner rather spreads the virus, which can be solved.

As shown in FIG. 7C, when the virus removal unit 100 is applied to the air conditioners of various transportation institutions, the virus is removed from the damper or diffuser of the ceiling air passage of the traffic cabin, which is the quarantine target 101 connected to the blower of the air conditioner. The downdraft of the removed clean air can be sent into the cabin. Passengers can breathe safe air by blowing clean air from which viruses have been removed over their heads.

As shown in FIG. 7D, the air supplied to the air conditioning equipment installed in the underground space or building has an atmospheric inlet for supplying fresh air (air that does not contain heavy harmful air such as vehicle exhaust gas voc) at a height of 6 m or more above the ground. , When the virus removal unit 100 is applied, fresh and safe clean air from which viruses are removed can be provided to the quarantine target 101 in an underground space or a building.

In addition, when the OH radical aqueous solution chamber is used in the virus removal unit, dust is adhered to the aqueous solution to solve the problem of yellow dust or fine dust.

8 is a flow chart showing a method for preparing a mucosal vaccine according to the present invention. Active antigens (bacterial virus cells) attached to an OH radical aqueous solution are collected and subdivided, and weakened and inactivated over time to be used as a mucosal vaccine. 9 is an exemplary diagram of a storage box 350 for storing antigen samples (virus adhesion solution) for each elapsed time after the collection.

The method for preparing a mucosal vaccine according to the present invention includes an air inlet through which air is introduced from a quarantine target and an air outlet through which air is discharged, and a virus adhesion removal unit disposed between the air inlet and the air outlet, The virus removal unit has an OH radical chamber for weakening or inactivating viruses, sucks air from outside air and quarantine targets, and removes viruses or bacteria from the virus adhesion removal unit to supply clean air to outside air or quarantine targets. Using an anti-virus system including an OH radical chamber that can be sent, but collecting or collecting the weakened and inactivated virus between the air outlet of the adhesive removal unit and the respiratory tract; and Attenuating or inactivating according to the flow of; and inoculating the attenuated virus to the user, wherein the mucosal vaccine can be easily prepared using an anti-virus system.

In addition, the method of preparing a mucosal vaccine using the anti-virus system according to the present invention, in the step of collecting disease virus samples, is collected every day for 15 days, and antigen sample storage box that can be stored for 15 days in the order of elapsed time after collection 350 is provided so that the collection bottle 354 of the antigen sample is put in the storage groove 352 of the storage box 350, and then inoculated to the user's mucous membrane in the order of elapsed time after collection. For convenience of order management, it is convenient to attach an identification number 356 to the storage groove 352 of the storage box 350.

In the anti-virus system including the OH radical chamber, the antigens (bacteria, virus cells) attached to the adhesive solution are gradually weakened and inactivated according to the elapsed time after collection, and die after living for about 15 days.

Utilizing this fact, the degree of attenuated inactivation state is preferably divided into 15 stages, and virus antigens (bacterial virus cells) with a high degree of attenuated inactivation state are inoculated first, and antigens (bacterial virus cells) at gradually lower stages are inoculated. By selecting and inoculating up to 15 times, antibodies (immune cells) receive invasion signals from antigens (bacterial virus cells) and produce antibodies and anti-toxins.

Towards the final goal of enabling the live virus, the antigen, to be remembered for life in immune memory cells (memory: Tcell, Bcell), the user's age, constitution, degree of basal and weakened inactivity, inoculation time, inoculation step It is desirable to select carefully with control.

The confirmed person is attached to the vegetable medium OH radical adhesive solution every day during the treatment period of about 13 days, and the virus collected with a pipette or needle-free sticky liquid sample collection syringe is placed in a collection bottle for preparing mucosal vaccines.

For 15 days, the aqueous solution containing the virus contained in 15 pipettes is injected into the nasal/back cavities one by one every day from the pipette on the first day to the pipette on the 15th day, and is inoculated by oral administration. After a few days, check and see if anti-toxin occurs, and if not, wear a portable personal bag respirator, and collect the viral adhesive liquid with a pipette every day from the collector attached to the personal respirator until anti-toxin is generated. Inoculate. As time elapses after collection, the adherent virus gradually becomes weakened and inactivated, and becomes not enough to invade the antibody cells of the respiratory mucosa.

Therefore, in order to surely eliminate the side effects of mucosal vaccine vaccination, it is gradually lowered from the non-invasion stage to the invailable stage, and inoculated (orally administered) several times safely up to 15 times to enable immune memory, immediately antibody, to produce an antitoxin.

Claims (21)

An air inlet through which air is introduced from the quarantine target and an air outlet through which air is discharged, and a virus adhesion removal unit disposed between the air inlet and the air outlet, wherein the virus removal unit weakens or inactivates the virus OH Equipped with a radical chamber, inhaling air from the outside air and quarantine target to remove viruses or bacteria from the virus adhesion removal unit, and sending clean air to the outside air or quarantine target Anti-bacteria including OH radical chamber virus system. The method of claim 1, wherein the OH radical chamber of the virus removal unit contains an aqueous solution of a vegetable medium, and OH radicals are generated between a ruthenium (Ru) catalytic electrode plate and a titanium (Ti) or carbon fiber electrode plate, OH An antivirus system including an OH radical chamber, which constitutes a virus sticky chamber in which viruses weakened and inactivated by radicals are adhered and removed. The antivirus system according to claim 1, wherein the aqueous vegetable medium solution is configured to have adhesiveness by introducing powder of the vegetable medium together with water into the OH radical chamber, and OH radicals are generated by energizing the electrode plate. The method of claim 1, wherein the anti-virus system is movable with a respirator that can be worn by an individual, and the air in which the virus has been eliminated or inactivated in the virus adhesion removal unit is discharged from an air outlet through an air hose. It is introduced into the respirator, and the exhaled air of the wearer is introduced into the air inlet of the removal unit including the adhesive OH radical chamber through the air hose connecting the respirator and the stickiness removal unit, so that the virus is eliminated or inactivated in the stickiness removal unit. Anti-virus system including OH radical chamber. 5. The OH radical chamber according to claim 4, which is equipped with a collector that collects the inactivated virus that is destroyed or weakened between the air outlet of the adhesive removal unit and the respiratory tract so that the virus can be used as a mucosal vaccine optimized for the wearer's body. Including antivirus system. The antivirus system including the OH radical chamber according to claim 2, comprising a voltage control device for adjusting the disappearance, weakening or inactivation of the captured virus. The OH radical chamber of claim 3, wherein blowers are installed at the air inlet and outlet of the sticking removal unit or at the inhalation hose and the exhalation hose, respectively, and the blower is operated by a sensor that detects inhalation and exhalation. Including antivirus system. [Claim 4] The method of claim 3, wherein in the adhesion chamber, the aqueous solution of the OH radical chamber and the virus-enriched air are mixed with each other. contact. A circulation line that removes viruses that collide and float in the air by attaching them to the aqueous solution, and a pump that introduces outside air and circulates the aqueous solution, and a bumper for outlet air at the air outlet of the removal chamber. An antivirus system including an OH radical chamber having an outlet pocket for inhalation as a pump and an inlet pocket for exhalation as a bumper for inlet air at the inlet of the pump. The antivirus system according to claim 8, wherein a metal filter is embedded in the circulation line to greatly reduce the length and lighten the weight of the circulation line.
The antivirus system including the OH radical chamber according to claim 1 or 3 has an air inlet and a blower that sucks indoor air, passes the inhaled air through a virus detaching unit to adhere viruses, and then the air outlet Through the OH radical chamber, which constitutes quarantine equipment by making respiratory droplets of several people pass through the adhesive removal unit again according to the ascending air flow, discharged to the outside air or returned to the room, and creates a circulation of the ascending air flow of the virus removal air. Including antivirus system. The antivirus system including the OH radical chamber according to claim 1 or 3 is installed in the entrance and exit passage of airports and ports, the passage of the public, or the passage of goods for disinfection of delivered goods, and sucks the air inside. OH radical chamber for aisle disinfection, which is equipped with a blower and an air inlet, and removes the virus by passing the inhaled air through the virus sticking removal unit, and then discharges it to the outside air through the air outlet or returns it to the quarantine space. Including antivirus system. The antivirus system according to claim 1 or 2, including an OH radical chamber that removes bacterial viruses of various respiratory diseases by applying a virus adhesion removal unit to an air purifier, an air conditioner, or a warm air conditioner. The method of claim 1 or 2, wherein a virus removal unit is installed at the air inlet or outlet of the air conditioner of the transportation institution, and the air is blown into the room from a damper or diffuser installed in the ceiling air passage of the room to be quarantined connected to the blower of the air conditioner. , An anti-virus system including an OH radical chamber that creates a descending flow of clean air from the ceiling to the floor of the cabin, blocking respiratory droplets between passengers and allowing them to breathe clean air. The method of claim 1 or 2, including an OH radical chamber for supplying clean air from which various bacteria and viruses are removed by applying the irradiation chamber of the virus adhesion removal unit to air conditioning facilities or system air conditioners of underground facilities or ground facilities or air conditioners/heaters. antivirus system. According to claim 1 or claim 3, by applying the OH radical adhesion chamber of the virus adhesion removal unit, various bacterial viruses are adhered and removed, and at the same time, yellow dust and fine dust are both adhered and removed, so that the air is similar to the air in the forest, that is, pollution-free. Antivirus system with OH radical chamber to breathe clean oxygenated air.
The antivirus system according to claim 1, including an OH radical chamber applied to a ventilation system of a negative pressure room equipped with the virus removal unit or a ventilation system of a barn. The method of claim 5, wherein the respirator is composed of a gas mask, so that the gas mask includes a virus removal unit and a virus collector to defend against an unexpected bacterial virus attack, and collects the attacked bacterial virus to identify the type Antivirus system including OH radical chamber that
An air inlet through which air is introduced from the quarantine target and an air outlet through which air is discharged, and a virus adhesion removal unit disposed between the air inlet and the air outlet, wherein the virus removal unit weakens or inactivates the virus OH OH according to claim 1, having a radical chamber, inhaling external air and air from the quarantine target to remove viruses or bacteria from the virus adhesion removal unit and sending clean air to the outside air or quarantine target Use an anti-virus system including a radical chamber,
collecting the weakened and inactivated virus between the air outlet of the sticking removal unit and the respiratory tract;
weakening the captured virus over time; and
A method of preparing a mucosal vaccine using an anti-virus system, comprising: inoculating a weakened virus to a user.
[Claim 19] The mucosal vaccine vaccine using an anti-virus system according to claim 18, comprising the step of adjusting the voltage so that the operation of the adhesion removal unit can be adjusted in response to the user's age, health condition, underlying disease, and special constitution. How to prepare.
The method of claim 18 or 19, wherein the adhesive removal unit is equipped with a virus collector to collect the virus, or to collect a disease virus sample collected by scraping the user's nasal cavity / nasal cavity with a cotton swab dipped in adhesive liquid; , A method for preparing a mucosal vaccine using an anti-virus system, comprising the step of using the collected virus as a sample for preparing a user-customized (optimized) mucosal vaccine.
The method of claim 20, wherein the step of collecting the disease virus sample is provided with an antigen sample storage box that can be collected every day for 15 days and stored for 15 days in the order of elapsed time after collection, and put the antigen sample in the storage box, A method of preparing a mucosal vaccine using an anti-virus system, comprising inoculating a user's mucous membrane in order of elapsed time after collection.

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