KR102436851B1 - Cooling-fog sterilization system with gathering moisture in the air - Google Patents

Abstract

The present invention collects moisture in the atmosphere and uses it as raw water (water), so it does not require a separate raw water supply facility such as a water supply facility, and sprays a disinfectant in the form of an aqueous solution in a mist (fog) method around a certain area. It relates to a sterilization and disinfection fog system by collecting moisture in the atmosphere that removes fine dust and sterilizes the air. It outputs the corresponding control signal to be supplied, monitors the operating status of each functional part provided in the system, and mixes the sterilizing and deodorizing agent with the raw water according to the control signal of the system control unit and the system control unit that outputs the corresponding control signal, and discharges it as a sterilizing and deodorizing solution A sterilizing and disinfectant made of an aqueous solution by the feature comprising a sterilizing and deodorizing agent supply unit that does not block the sterilizing and deodorizing solution flowing in by the corresponding control signal of the system control unit and mixing with air and spraying it in the form of a mist. By discharging in the form of mist to remove fine dust while removing bacteria including viruses, it also collects moisture contained in the air and uses it as water (raw water), reducing the time, space and cost for installing water facilities. It has the effect of being able to quickly manufacture and use a sterilizer in the form of a disinfectant in the field.

Description

Sterilization and disinfection fog system by collecting moisture in the air {Cooling-fog sterilization system with gathering moisture in the air}

The present invention relates to a sterilization and disinfection fog system by collecting moisture in the atmosphere. It relates to a sterilization and disinfection fog system by collecting moisture in the air that removes fine dust around a certain area and sterilizes them together by spraying a disinfectant in a fog method.

Fine dust (fine dust, particle dust matter) is less than 10 micrometers (um), which is about 1/10 the size of a hair with a diameter of 50 - 70 micrometers (um), and when it breathes or penetrates into cells Even healthy people, as well as children and the elderly, may face serious diseases as their immunity declines. On the other hand, ultrafine dust refers to dust having a particle size of 2.5 micrometers (um) or less.

Fine dust generally contains carbon components including elemental carbon and organic carbon, and mineral components of ions including sulfate, nitrate, and ammonium, which are harmful to the human body. It is one of the most lethal substances for mankind.

Particles of fine dust can be composed of various types of contaminants agglomerated and attached to the nucleus of fine dust. When such fine dust is inhaled for a long time through breathing, it is not filtered through the nasal mucosa and directly penetrates into the cells of the alveoli. up to an increase. That is, according to the results of many studies, it is known that long-term and continuous exposure to fine dust has adverse effects on health, and it is generally known that short-term inhalation does not suddenly cause bad body changes.

On the other hand, the fog system separates a specific area from an adjacent area or isolates a specific area by spraying water (raw water, water) supplied from a connected water supply facility in the form of fog particles. If the raw water (water) sprayed in the form of a disinfectant is included, it is a configuration that divides the quarantine area and is a generally known configuration.

In addition, pathogens (bacteria) that are transmitted through the air, such as corona virus, have the characteristic of being easily transmitted and spread in places where many people gather. It is necessary to develop a technology to sterilize it.

In other words, it is necessary to develop a technology to sterilize the surrounding fine dust in a limited area, but by using the fog system to sterilize the virus that is spread or introduced through the wind in the air.

As a prior art that partially resolved this need, there is a 'fine dust access blocking device and its operating method' according to Korean Patent Application No. 10-2018-0043249 (April 13, 2018).

1 is a functional configuration diagram of a sterilization system according to an embodiment of the prior art.

Hereinafter, when described in detail with reference to the accompanying drawings, the fine dust control unit 1000 monitors the overall operating state of the fine dust access blocking device 100 and outputs a control signal to each component according to a command signal from the outside, The high voltage generator 2000 inputs operating power according to the corresponding control signal, generates negative and positive high voltages, respectively, and outputs them to each designated path, and the fine dust blocker 3000 is applied from the high voltage generator 2000 Since corona discharge is caused by a high voltage signal, it is a configuration that blocks the access of fine dust located in a predetermined radius around it.

The prior art has the advantage of blocking the inflow of fine dust in a predetermined radius around it, but it is difficult to block the inflow of fine dust due to wind, etc., and there is a problem that the radius of blocking the inflow of fine dust is relatively small. In addition, there is a problem in that installation and operation and maintenance costs are high because it is necessary to additionally install a water supply facility in order to spray the disinfectant in the form of an aqueous solution.

Therefore, it is necessary to develop a technology that forms a safe area from viruses and environmental pollution by forming a relatively large radius to block the inflow of fine dust while reducing the installation cost and separating it from other surrounding areas.

Republic of Korea Patent Application No. 10-2018-0043249 (April 13, 2018) ‘A device for blocking access to fine dust and its operation method’

The present invention devised in order to solve the problems and necessity of the prior art as described above removes fine dust by discharging a disinfectant made of an aqueous solution in a fog shape to a certain area while removing pathogens (bacteria) including viruses together. It is an object to provide a sterilization and disinfection fog system by collecting moisture in the atmosphere to remove.

On the other hand, instead of installing a separate water facility to quickly produce a disinfectant in the form of an aqueous solution, moisture contained in the air is collected and used as raw water (water). It is an object to provide a sterilization and disinfection fog system by collecting moisture in the air to reduce.

The sterilization and disinfection fog system according to the present invention devised to achieve the above object includes: a raw water supply unit 1000 for supplying raw water according to a corresponding control signal; a system control unit 2000 that is connected to the raw water supply unit 1000 and outputs a corresponding control signal so that the raw water is supplied in a fixed amount, monitors the operating state of each functional unit provided in the system, and outputs a corresponding control signal; a sterilizing and deodorizing agent supplying unit 3000 for mixing a sterilizing and deodorizing agent with the raw water according to a corresponding control signal of the system control unit 2000 and discharging it as a sterilizing and deodorizing solution; a mixing tank unit 2500 for receiving and storing the raw water solution supplied from the raw water supply unit 1000 and mixing the sterilizing and deodorizing solution flowing in from the sterilizing and deodorizing agent supply unit 3000 with the stored raw water solution; an air mist nozzle assembly unit 4000 that mixes with air and sprays it in a mist shape while the sterilization and deodorization solution flowing in by the corresponding control signal of the system control unit 2000 is not blocked; may include.

The sterilization and disinfection fog system according to the present invention devised to achieve the above object includes: a raw water supply unit 1000 for generating and supplying raw water by collecting moisture from surrounding air; a system control unit 2000 that is connected to the raw water supply unit 1000 and outputs a corresponding control signal so that the raw water is supplied in a fixed amount, monitors the operating state of each functional unit provided in the system, and outputs a corresponding control signal; a sterilizing and deodorizing agent supplying unit 3000 for mixing a sterilizing and deodorizing agent with the raw water according to a corresponding control signal of the system control unit 2000 and discharging it as a sterilizing and deodorizing solution; a mixing tank unit 2500 for receiving and storing the raw water solution supplied from the raw water supply unit 1000 and mixing the sterilizing and deodorizing solution flowing in from the sterilizing and deodorizing agent supply unit 3000 with the stored raw water solution; an air mist nozzle assembly unit 4000 that mixes with air and sprays it in a mist shape while the sterilization and deodorization solution flowing in by the corresponding control signal of the system control unit 2000 is not blocked; may include.

According to the corresponding control signal of the system control unit 2000, a predetermined amount of the sterilization and deodorization solution supplied from the sterilization and deodorant supply unit 3000 is introduced, stored, and discharged in a fixed quantity, and the airflow fog nozzle assay unit 4000. supply chamber unit 5000; may further include.

an exhaust sensing unit 6000 for respectively detecting the discharge pressure and the discharge temperature of the sterilization and deodorization solution flowing into the air mist nozzle assay unit 4000 according to the corresponding control signal of the system control unit 2000; may further include.

a nano-bubble potential water unit 7000 for generating dislocation water according to the corresponding control signal of the system control unit 2000 and discharging it in a quantitative manner to mix it with the raw water in the form of nano bubbles; may further include.

a foreign material removal constant temperature unit 8000 for introducing the sterilizing and deodorizing solution from the sterilizing and deodorizing agent supply unit 3000 according to a corresponding control signal of the system control unit 2000, adjusting the temperature to be raised or lowered, and removing foreign substances; an ambient environment sensing unit 9000 for respectively detecting ambient temperature and humidity according to a corresponding control signal of the system control unit 2000; may further include.

The raw water supply unit 1000 includes: a condensed raw water generator 1100 that cools the surrounding air to condense and collect moisture contained in the air to generate condensed raw water; a raw water tank unit 1200 for receiving and storing the condensed raw water generated by the condensed raw water generating unit 1100; a freezing prevention unit 1300 installed in a part of the raw water tank unit 1200 and preventing freezing of the condensed raw water by maintaining the temperature of the image according to the corresponding control signal of the system control unit 2000; a raw water level detection unit 1400 installed in a part of the raw water tank unit 1200 and configured to detect a level at which the condensed raw water is introduced and stored according to a corresponding control signal of the system control unit 2000; a raw water drain unit 1500 installed in a part of the raw water tank unit 1200 and configured to automatically discharge the condensed raw water introduced when it exceeds a specified level; a raw water quantity supply pump 1600 installed in a part of the raw water tank unit 1200 and discharging the condensed raw water introduced by the corresponding control signal of the system control unit 2000 to a uniform capacity; a direct water supply pump 1700 connected to a direct water line 1710 for supplying commercial commercial raw water and flowing in a fixed amount of commercial raw water according to a corresponding control signal of the system control unit 2000; a selection valve 1800 connected to the raw water tank unit 1200 and the direct water line 1710, respectively, and selectively discharging the condensed raw water and the commercial raw water according to the corresponding control signal of the system control unit 2000; may include.

The raw water supply unit 1000 includes: a condensed raw water generator 1100 that cools the surrounding air to condense and collect moisture contained in the air to generate condensed raw water; a raw water tank unit 1200 for receiving and storing the condensed raw water generated by the condensed raw water generating unit 1100; a freezing prevention unit 1300 installed in a part of the raw water tank unit 1200 and preventing freezing of the condensed raw water by maintaining the temperature of the image according to the corresponding control signal of the system control unit 2000; a raw water level detection unit 1400 installed in a part of the raw water tank unit 1200 and configured to detect a level at which the condensed raw water is introduced and stored according to a corresponding control signal of the system control unit 2000; a raw water drain unit 1500 installed in a part of the raw water tank unit 1200 and configured to automatically discharge the condensed raw water introduced when it exceeds a specified level; a raw water quantity supply pump 1600 installed in a part of the raw water tank unit 1200 and discharging the condensed raw water introduced by the corresponding control signal of the system control unit 2000 to a uniform capacity; may include.

The air mist nozzle assay unit 4000 introduces the sterilization and deodorization solution into the first path 4110 and discharges it in a uniform volume through the nozzle end 4130, but with compressed air flowing into the second path 4120 and Air nozzle unit 4100 for discharging in a mixed state; a compressed air pump 4200 for generating compressed air according to a corresponding control signal from the system control unit 2000 and supplying it to the second path 4120 of the air nozzle unit 4100; a nozzle needle solenoid valve 4300 installed inside the first path 4110 of the air nozzle 4100 and penetrating the hole of the nozzle end 4130 according to a corresponding control signal from the system control unit 2000; may include.

The nozzle needle solenoid valve 4300 includes a nozzle end penetrating needle 4310 installed in a moving state along the first path 4110 inside the first path 4110; It is fixedly installed in a part of the first path 4110 and is discharged or returned in a straight direction so that the nozzle end penetrating needle 4310 passes through the nozzle end 4130 according to a corresponding control signal of the system controller 2000 . a nozzle solenoid 4320; may include.

The air nozzle unit 4100 may be made of Teflon or coated with Teflon.

The nozzle end penetrating needle 4310 may be formed by coating the entire outer surface with Teflon.

The sterilization and deodorant supply unit 3000 includes a sterilization and deodorization tank unit 3100 for storing the sterilization and deodorization agent; a sterilizing agent metering pump 3200 installed in a lower portion of the sterilization and deodorization tank unit 3100 and discharging the sterilization and deodorization agent in a fixed amount according to a corresponding control signal of the system control unit 2000; may include.

The metering supply chamber unit 5000 includes a metering chamber 5100 for temporarily storing the sterilization and deodorization solution; a chamber pump 5200 installed in a lower portion of the metering chamber 5100 and discharging the sterilization and deodorization solution in a fixed amount according to a corresponding control signal of the system control unit 2000; may include.

The discharge sensing unit 6000 includes a discharge temperature sensor 6100 that detects the temperature of the sterilization and deodorization solution and transmits it to the system control unit 2000; and a discharge pressure sensor 6200 that detects the discharge pressure of the sterilization and deodorization solution that is introduced into the air mist nozzle assay unit 4000 and is sprayed and delivers it to the system control unit 2000 .

The nano-bubble potential water unit 7000 receives a high voltage potential in the range of 1000 to 5000 volts according to the corresponding control signal of the system control unit 2000 and generates potential water in which oxygen converted into an activated state is dissolved in purified water. voice 7100; a potential water pump 7200 for withdrawing a fixed amount of the raw water solution stored in the mixing tank 2500 according to a corresponding control signal from the system control unit 2000 and flowing it back into the mixing tank 2500; Potential water is applied to the raw water solution connected to the potential water generator 7100, the potential water pump 7200, and the mixing tank 2500, respectively, and drawn from the mixing tank 2500 in a fixed amount by the potential water pump 7200. After mixing in the form of nanometer-sized bubbles, the venturi unit 7300 is introduced into the mixing tank unit 2500 again; may include.

The foreign matter removal constant temperature unit 8000 includes a temperature control unit 8100 for heating or cooling the sterilization and deodorization solution according to the corresponding control signal of the system control unit 2000 to adjust the temperature; a foreign material removal unit 8200 for physically removing foreign substances contained in the sterilization and deodorization solution flowing in from the temperature control unit 8100; may include.

The ambient environment sensing unit 9000 includes an ambient temperature sensor 9100 for detecting the ambient temperature according to a corresponding control signal of the system control unit 2000; an ambient humidity sensor 9100 for detecting ambient humidity according to a corresponding control signal of the system control unit 2000; may include.

The present invention having the above configuration has the advantage of removing bacteria including viruses while removing fine dust by discharging a disinfectant made of an aqueous solution to a specific area in a fog shape.

On the other hand, since the present invention collects moisture contained in the atmosphere and uses it as water (raw water), it is possible to quickly manufacture and use a disinfectant in the form of an aqueous solution in the field while reducing the time, space occupancy and cost for installing water facilities. There is this.

1 is a functional block diagram of a sterilization system according to an embodiment of the prior art;
2 is an overall configuration diagram of a sterilization and disinfection fog system by collecting moisture in the atmosphere according to an embodiment of the present invention;
3 is a functional configuration diagram illustrating an air-fluid fog nozzle assay unit according to an embodiment of the present invention;
4 is a flow chart for explaining the operation of the air mist nozzle assay unit according to an embodiment of the present invention;
and
5 is a diagram illustrating a state prediction to which a configuration according to an embodiment of the present invention is applied.

Since the present invention can apply various transformations and can have various embodiments, specific embodiments are illustrated in the drawings and described in detail in the detailed description. However, this is not intended to limit the present invention to specific embodiments, and it should be understood to include all modifications, equivalents and substitutes included in the spirit and scope of the present invention. In describing the present invention, if it is determined that a detailed description of a related known technology may obscure the gist of the present invention, the detailed description thereof will be omitted.

In the following description, the fog (fog) includes a cooling fog that is sprayed at a relatively lower temperature than the surrounding to cool it, a steam fog that is sprayed at a relatively higher temperature than the surrounding, and a general fog that is sprayed at room temperature. In addition, raw water and water are used as the solution in which the disinfectant is dissolved, but it is understood that they have the same meaning and will be selectively used according to the context.

2 is an overall configuration diagram of a sterilization and disinfection fog system by collecting moisture in the atmosphere according to an embodiment of the present invention, and FIG. 4 is a flowchart illustrating the operation of the air mist nozzle assay unit according to an embodiment of the present invention.

Hereinafter, when described in detail with reference to all the accompanying drawings, the sterilization and disinfection fog system 900 by collecting moisture in the air is a raw water supply unit 1000, a system control unit 2000, a mixing tank unit 2500, and a sterilization and deodorant supply unit ( 3000), air trapping fog nozzle assay unit 4000, quantitative supply chamber unit 5000, discharge sensing unit 6000, nano bubble potential water unit 7000, foreign matter removal constant temperature unit 8000, and ambient environment sensing unit 9000 ) is included.

The raw water supply unit 1000 supplies raw water quantitatively according to a corresponding control signal.

Here, raw water (water) includes condensed raw water generated by condensing and collecting moisture contained in the air by cooling the surrounding air and commercial raw water supplied by being connected to the commercial direct water line 1710 .

The raw water supply unit 1000 according to an embodiment is configured to include a condensed raw water generating unit 1100 , a raw water tank unit 1200 , a freezing prevention unit 1300 , a direct water line 1400 , and a selection valve 1500 .

Meanwhile, the raw water supply unit 1000 according to another embodiment is configured to include a condensed raw water generator 1100 , a raw water tank unit 1200 , and a freeze prevention unit 1300 .

The condensed raw water generating unit 1100 generates condensed raw water by condensing and collecting moisture contained in the air by cooling the surrounding air. Condensed raw water generator 1100 is a configuration including a Peltier element or a cooling device.

A device for generating condensed raw water uses a Peltier element or a condenser for cooling. Humidity (relative humidity) in Korea announced by the Korea Meteorological Administration is in the range of 60 to 75% throughout the year, 70 to 85% humidity in July and August with relatively high rainfall, and 50 to 70% in March and April with relatively low rainfall. Humidity is relatively high.

Relative humidity is defined as the partial pressure of water vapor divided by the saturated water vapor pressure, and is the ratio of the amount of water vapor currently actually contained to the maximum amount of water vapor that air can hold. In other words, if the humidity (relative humidity) is 50%, it means that only half of the amount of water vapor that can exist in the air is present. As the temperature increases, the amount of water vapor it can hold increases. With a fixed amount of water vapor, the partial pressure of water vapor increases as the temperature increases, but the relative humidity decreases because the saturated water vapor pressure becomes much higher.

Since Korea has relatively high humidity due to regional characteristics, it is possible to secure relatively sufficient water by using a peltier element or a condenser for cooling, and a technology to secure water from the air (atmosphere) using natural imitation by spiders, etc. is also recently known, and it is very natural that such a technique can also be used.

The raw water tank unit 1200 receives and stores the condensed raw water generated by the condensed raw water generator 1100 .

The freezing prevention unit 1300 is installed in a part or the entire outside of the raw water tank unit 1200 and maintains the temperature of the image according to the corresponding control signal of the system control unit 2000, thereby preventing the condensed raw water from freezing. In the case of Korea, since sub-zero temperatures are recorded in winter, it is necessary to provide a configuration of the freeze prevention unit 1300 .

The direct water line 1400 is connected or connected to a commercial water bureau, etc. to immediately supply the capacity required for commercial raw water for 24 hours.

The selection valve 1500 is connected to the raw water tank unit 1200 and the direct water line 1400, respectively, and selectively introduces condensed raw water and commercial raw water according to the corresponding control signal of the system control unit 2000 to supply or discharge it.

The system control unit 2000 controls the selection valve 1500 to control the condensed raw water introduced from the raw water tank unit 1200 to flow into the mixing tank unit 2500 when operating in a normal state by controlling the selection valve 1500 .

The system control unit 2000 monitors the level sensor unit 2510 and controls the selection valve 1500 to control the selection valve 1500 when it is confirmed that the capacity of the raw water introduced into the mixing tank unit 2500 is equal to or less than the allowable minimum capacity. is rapidly drawn in until the allowable full capacity is reached.

The system control unit 2000 is connected to the raw water supply unit 1000 and outputs a corresponding control signal so that the raw water is supplied in a fixed amount, monitors the operating state of each functional unit provided in the system, and outputs a corresponding control signal.

Specific functions (actions) of the system controller 2000 will be described again in detail when each configuration is described.

The mixing tank unit 2500 receives and stores condensed raw water or commercial raw water up to an allowed minimum capacity or more and a maximum allowed capacity.

The mixing tank unit 2500 is configured to include a level sensor unit 2510 and a drain unit 2520 .

The level sensor unit 2510 is connected to the system control unit 2000 and determines whether the raw water introduced into the mixed port tank unit 2500 is the minimum allowable capacity or less than the allowable minimum capacity, or the maximum allowable capacity or more than the allowable maximum capacity. Detected and transmitted to the system control unit 2000, respectively.

The drain unit 2520 is installed in an upper part of the mixing tank unit 2500 in connection with the outside. It is configured to be discharged.

The system control unit 2000 controls the condensed raw water generator 1100 to produce more condensed raw water when receiving a corresponding detection signal determined to be the minimum allowable capacity or less than the permissible minimum capacity from the level sensor unit 2510 . can do. That is, since the Peltier element or cooling device provided in the condensed raw water generating unit 1100 is controlled to operate at a lower temperature, it is possible to control so that more condensed water is generated.

The sterilizing and deodorizing agent supply unit 3000 supplies the sterilizing and deodorizing agent to the mixing tank unit 2500 in a predetermined amount according to the corresponding control signal of the system control unit 2000, so that the sterilizing and deodorizing agent is mixed with the raw water and discharged.

The sterilization and deodorization solution may include chlorine dioxide water, physiological saline, alcohol, etc. with disinfection, sterilization and deodorization functions.

The sterilization and deodorant supply unit 3000 is configured to include a sterilization and deodorization tank unit 3100 and a sterilant metering pump 3200 .

The sterilization and deodorization tank unit 3100 stores a sterilizing and deodorizing agent, and the sterilizing and deodorizing agent is made of a liquid.

The sterilizing agent metering pump 3200 is installed in a lower portion of the sterilization and deodorization tank part 3100 and discharges the sterilization and deodorization agent in a fixed quantity according to the corresponding control signal of the system control part 2000 .

The two-fluid fog nozzle assay unit 4000 allows the sterilization and deodorization solution introduced by the corresponding control signal of the system control unit 2000 to be mixed with air and to be sprayed in the form of a mist while not being blocked.

The air mist nozzle assembly unit 4000 includes an air nozzle unit 4100 , a compressed air pump 4200 , and a nozzle needle solenoid valve 4300 .

The two-fluid nozzle unit 4100 introduces the sterilization and deodorization solution into the first path inlet 4111 formed in the first path 4110 and discharges it in a uniform volume through the nozzle end 4130, but to the second path 4120. It is discharged in a mixed state with the incoming compressed air.

The two-fluid nozzle unit 4100 is entirely constructed and made using any one or all selected from stainless steel and Teflon, or the outside is coated with Teflon, or the inside is made of other general metal and the outside is coated with Teflon. can Since Teflon is a material that prevents corrosion, it is not corroded by the sterilizing and deodorizing solution used, so it has the advantage of extending the lifespan, and the same applies below.

The compressed air pump 4200 generates compressed air according to the corresponding control signal of the system control unit 2000 and supplies it to the second path 4120 of the air nozzle unit 4100 .

The sterilizing and deodorizing solution introduced into the first path 4110 and discharged to the nozzle end 4130 is sprayed in a fog shape by the compressed air introduced into the second path 4120 .

The nozzle needle solenoid valve 4300 is installed inside the first path 4110 of the air nozzle unit 4100 and penetrates the hole of the nozzle end 4130 according to a corresponding control signal from the system control unit 2000 .

The nozzle needle solenoid valve 4300 is configured to include a nozzle end penetrating needle 4310 and a nozzle solenoid 4320 .

The nozzle end penetrating needle 4310 is installed in a moving state along the first path 4110 inside the first path 4110 . The nozzle end penetrating needle 4310 is made by coating the entire outer surface with Teflon without any gaps.

The nozzle solenoid 4320 is fixedly installed on a part of the first path 4110 and discharged in a straight direction so that the nozzle end penetrating needle 4310 penetrates the nozzle end 4130 by the corresponding control signal of the system control unit 2000. or a return configuration.

The quantitative supply chamber unit 5000 introduces and stores a predetermined amount of the sterilization and deodorization solution supplied from the sterilization and deodorant supply unit 3000 according to the corresponding control signal of the system control unit 2000, stores it, and discharges it in a fixed quantity, so that the air mist nozzle assay unit 4000 ) is discharged in

The metering supply chamber unit 5000 is configured to include a metering chamber 5100 and a chamber pump 5200 .

The quantitative chamber 5100 introduces a sterilizing and deodorizing solution and temporarily stores it.

The chamber pump 5200 is installed in a lower portion of the metering chamber 5100 and discharges the sterilization and deodorization solution stored in the metering chamber 5100 in a fixed amount according to a corresponding control signal of the system control unit 2000 .

The discharge sensing unit 6000 detects the discharge pressure and the discharge temperature of the sterilization and deodorization solution flowing into the air mist nozzle assembly unit 4000 according to the corresponding control signal of the system control unit 2000 , respectively.

The discharge sensing unit 6000 is configured to include a discharge temperature sensor 6100 and a discharge pressure sensor 6200 .

The discharge temperature sensor 6100 detects the temperature of the sterilization and deodorization solution and transmits it to the system control unit 2000 .

The system control unit 2000 monitors the temperature value detected by the exhaust temperature sensor 6100 to check whether cooling fog is discharged or steam fog is discharged, and steam fog is discharged in winter (winter season) and summer (summer) Monitor whether cooling fog is emitted.

The discharge pressure sensor 6200 detects the discharge pressure of the sterilization and deodorization solution that is injected into the air mist nozzle assembly unit 4000 and is sprayed and delivered to the system control unit 2000 .

When the pressure exceeding the permitted range is detected from the discharge pressure sensor 6200, the system control unit 2000 determines that the nozzle end 4130 of the air mist nozzle assay unit 4000 is clogged, and the nozzle needle solenoid valve 4300. by controlling the nozzle end penetrating needle 4310 to penetrate the nozzle end 4130 . Therefore, foreign substances accumulated on the nozzle end 4130 are removed.

The nano-bubble potential water unit 7000 generates dislocation water according to the corresponding control signal of the system control unit 2000 and discharges it in a quantitative amount to mix it with raw water in the form of nano-bubbles.

The nano-bubble potential water unit 7000 is configured to include a potential water generator 7100 , a potential water pump 7200 , and a venturi unit 7300 .

The potential water generator 7100 receives a high voltage potential in the range of 1000 to 5000 volts according to a corresponding control signal of the system controller 2000 and generates potential water in which oxygen converted into an activated state is dissolved in purified water. It is relatively preferable to control the system controller 2000 so that 2000 volts is applied as a high voltage potential. The potential water generator 7100 applies a high pressure (high voltage) to displace the bonding angle formed between oxygen atoms and oxygen atoms to generate activated oxygen having a high activation rate, and dissolves or mixes activated oxygen in purified water to have high activation potential create a number

The potential water pump 7200 is configured to withdraw a fixed amount of the raw water solution stored in the mixing tank unit 2500 according to a corresponding control signal from the system control unit 2000 and to flow it back into the mixing tank unit 2500 .

The venturi unit 7300 is connected to the potential water pump 7200, the mixing tank unit 2500, and the potential water generator 7100, respectively, and raw water drawn from the mixing tank unit 2500 by the potential water pump 7200 in a fixed amount. It is a configuration in which dislocation water is mixed with the solution in the form of nanometer-sized bubbles and then introduced into the mixing tank unit 2500 again.

Since the configuration and operation of the venturi are well known, further detailed description will be omitted.

The foreign matter removal constant temperature unit 8000 introduces a sterilizing and deodorizing solution from the sterilizing and deodorizing agent supply unit 3000 according to a corresponding control signal of the system control unit 2000, adjusting the temperature to increase or decrease, and removes and discharges foreign substances.

The foreign material removal constant temperature unit 8000 is configured to include a temperature control unit 8100 and a foreign material removal unit 8200 .

The temperature control unit 8100 adjusts the temperature by heating or cooling the sterilization and deodorization solution according to the corresponding control signal of the system control unit 2000 .

The system controller 2000 controls the temperature controller 8100 to control and monitor so that cooling fog is discharged in summer, and controls and monitors so that steam fog is discharged in winter.

The foreign material removal unit 8200 physically removes the foreign material contained in the sterilization and deodorization solution flowing in from the temperature control unit 8100 . These foreign substances may block the nozzle end 4130 .

The ambient environment sensing unit 9000 detects values of ambient temperature and humidity according to the corresponding control signals of the system controller 2000 , respectively, and transmits the values to the system controller 2000 .

The system control unit 2000 may adjust the capacity of the generated condensed water by analyzing the surrounding temperature and humidity and adjusting the corresponding temperature value for the condensed source water generating unit 1100 to generate the condensed source water.

Recently, due to the rapid industrialization and acceleration of desertification in some regions, a large amount of fine dust is introduced into the atmosphere, and breathing air containing such fine dust has been reported to cause respiratory diseases.

Fine dust refers to particles with a particle diameter of 10 micrometers (um) or less. It is common to classify dust particles as ultrafine dust. For every 5 mg/m3 increase in ultrafine dust concentration, the risk of lung cancer increases by 18%, and every 10 mg/m3 increase increases the risk of lung cancer by 22%, increasing the probability of premature death by 7%. People who die earlier than life expectancy due to fine dust According to the World Health Organization (WHO), there are about 7 million people worldwide.

Even if the elderly, including children, the elderly, and people with respiratory diseases, are exposed to fine dust for a short period of time, it can have a direct effect on their health, and even healthy people need attention. For example, when fine dust penetrates the eyes, it affects allergic conjunctivitis, keratitis, etc., affects allergic rhinitis on the nose, affects bronchitis, emphysema, asthma, etc. It is known to cause cardiovascular diseases, including vascular damage, angina pectoris, and stroke, by infiltrating cells and circulating through blood vessels, further exacerbating various diseases because oxygen exchange becomes difficult while damaging the body's immune function.

It will be explained that the core of fine dust contains various harmful bacteria, germs, mold, and toxic compounds such as lead, cadmium, and sulfur dioxide, which are pollutants, and heavy metals.

Public places where many people gather and where pathogens can be easily spread by air may include bus stops, playgrounds, sports facilities, and railroad crossings. In addition, a place where a relatively large amount of odor is generated may include a livestock breeding ground, a garbage collection site, a sewage treatment facility, and the like. The above configuration can be effectively used in such places as sterilization, fine dust removal, odor removal, and the like.

Although the present invention has been described in detail with respect to the described embodiments, it is obvious to those skilled in the art that various changes and modifications are possible within the scope of the technical spirit of the present invention, and it is natural that such variations and modifications belong to the appended claims.

900: Sterilization and disinfection fog system by collecting atmospheric moisture
1000: raw water supply unit 1100: condensed raw water generating unit
1200: raw water tank unit 1300: freeze prevention unit
1400: direct water line 1500: selection valve
2000: system control unit 2510: level sensor unit
2520: drain part
3000: sterilization and deodorant supply unit 4000: air trapping fog nozzle assay unit
4100: air nozzle unit 4200: compressed air pump
4300: nozzle needle solenoid valve 4310: nozzle end penetrating needle
4320: nozzle solenoid 5000: fixed quantity supply chamber part
6000: emission sensing unit 7000: nano-bubble potential receiver
8000: foreign matter removal constant temperature unit 9000: ambient environment sensing unit

Claims (13)

a raw water supply unit 1000 for supplying raw water according to a corresponding control signal;
a system control unit 2000 that is connected to the raw water supply unit 1000 and outputs a corresponding control signal so that the raw water is supplied in a fixed amount, monitors the operating state of each functional unit provided in the system, and outputs a corresponding control signal;
a sterilizing and deodorizing agent supplying unit 3000 for mixing a sterilizing and deodorizing agent with the raw water according to a corresponding control signal of the system control unit 2000 and discharging it as a sterilizing and deodorizing solution;
a mixing tank unit 2500 for receiving and storing the raw water solution supplied from the raw water supply unit 1000 and mixing the sterilizing and deodorizing solution flowing in from the sterilizing and deodorizing agent supply unit 3000 with the stored raw water solution;
an air mist nozzle assembly unit 4000 that mixes with air and sprays it in a mist shape while the sterilization and deodorization solution flowing in by the corresponding control signal of the system control unit 2000 is not blocked; including,
The raw water supply unit 1000 is
a condensed raw water generating unit 1100 that cools the surrounding air to condense and collect moisture contained in the air to generate condensed raw water;
a raw water tank unit 1200 for receiving and storing the condensed raw water generated by the condensed raw water generating unit 1100;
a freezing prevention unit 1300 installed in a part of the raw water tank unit 1200 and preventing freezing of the condensed raw water by maintaining the temperature of the image according to the corresponding control signal of the system control unit 2000;
Direct water line (1400) for supplying commercial commercial water 24 hours a day;
a selection valve 1500 connected to the raw water tank unit 1200 and the direct water line 1400, respectively, and selectively discharging the condensed raw water and commercial raw water according to a corresponding control signal of the system control unit 2000; A sterilization and disinfection fog system by capturing moisture in the atmosphere, including:
a raw water supply unit 1000 for generating and supplying raw water by collecting moisture from the surrounding air;
a system control unit 2000 that is connected to the raw water supply unit 1000 and outputs a corresponding control signal so that the raw water is supplied in a fixed amount, monitors the operating state of each functional unit provided in the system, and outputs a corresponding control signal;
a sterilizing and deodorizing agent supplying unit 3000 for mixing a sterilizing and deodorizing agent with the raw water according to a corresponding control signal of the system control unit 2000 and discharging it as a sterilizing and deodorizing solution;
a mixing tank unit 2500 for receiving and storing the raw water solution supplied from the raw water supply unit 1000 and mixing the sterilizing and deodorizing solution flowing in from the sterilizing and deodorizing agent supply unit 3000 with the stored raw water solution;
an air mist nozzle assembly unit 4000 that mixes with air and sprays it in a mist shape while the sterilization and deodorization solution flowing in by the corresponding control signal of the system control unit 2000 is not blocked; including,
The raw water supply unit 1000 is
a condensed raw water generating unit 1100 that cools the surrounding air to condense and collect moisture contained in the air to generate condensed raw water;
a raw water tank unit 1200 for receiving and storing the condensed raw water generated by the condensed raw water generating unit 1100;
a freezing prevention unit 1300 installed in a part of the raw water tank unit 1200 and preventing freezing of the condensed raw water by maintaining the temperature of the image according to the corresponding control signal of the system control unit 2000;
Direct water line (1400) for supplying commercial commercial water 24 hours a day;
a selection valve 1500 connected to the raw water tank unit 1200 and the direct water line 1400, respectively, and selectively discharging the condensed raw water and commercial raw water according to a corresponding control signal of the system control unit 2000; A sterilization and disinfection fog system by capturing moisture in the atmosphere, including:
3. The method of claim 1 or 2,
According to the corresponding control signal of the system control unit 2000, a predetermined amount of the sterilization and deodorization solution supplied from the sterilization and deodorant supply unit 3000 is introduced, stored, and discharged in a fixed quantity, and the airflow fog nozzle assay unit 4000. supply chamber unit 5000; Sterilization and disinfection fog system by moisture capture in the atmosphere further comprising a.
3. The method of claim 1 or 2,
an exhaust sensing unit 6000 for respectively detecting the discharge pressure and the discharge temperature of the sterilization and deodorization solution flowing into the air mist nozzle assay unit 4000 according to the corresponding control signal of the system control unit 2000; Sterilization and disinfection fog system by collecting moisture in the atmosphere further comprising a.
3. The method of claim 1 or 2,
a nano-bubble potential water unit 7000 for generating dislocation water according to the corresponding control signal of the system control unit 2000 and discharging it in a quantitative manner to mix it with the raw water in the form of nano bubbles; Sterilization and disinfection fog system by collecting moisture in the atmosphere further comprising a.
3. The method of claim 1 or 2,
a foreign material removal constant temperature unit 8000 for introducing the sterilizing and deodorizing solution from the sterilizing and deodorizing agent supply unit 3000 according to a corresponding control signal of the system control unit 2000, adjusting the temperature to be raised or lowered, and removing foreign substances;
an ambient environment sensing unit 9000 for respectively detecting ambient temperature and humidity according to a corresponding control signal of the system control unit 2000; Sterilization and disinfection fog system by collecting moisture in the atmosphere further comprising a.
delete 3. The method of claim 2,
The raw water supply unit 1000 is
a condensed raw water generating unit 1100 that cools the surrounding air to condense and collect moisture contained in the air to generate condensed raw water;
a raw water tank unit 1200 for receiving and storing the condensed raw water generated by the condensed raw water generating unit 1100;
a freezing prevention unit 1300 installed in a part of the raw water tank unit 1200 and preventing freezing of the condensed raw water by maintaining the temperature of the image according to the corresponding control signal of the system control unit 2000; A sterilization and disinfection fog system by capturing moisture in the atmosphere, including:
3. The method of claim 1 or 2,
The airflow fog nozzle assembly unit 4000 is
A two-fluid nozzle unit ( 4100);
a compressed air pump 4200 for generating compressed air according to a corresponding control signal from the system control unit 2000 and supplying it to the second path 4120 of the air nozzle unit 4100;
a nozzle needle solenoid valve 4300 installed inside the first path 4110 of the air nozzle 4100 and penetrating the hole of the nozzle end 4130 according to a corresponding control signal from the system control unit 2000; A sterilization and disinfection fog system by capturing moisture in the atmosphere, including:
10. The method of claim 9,
The nozzle needle solenoid valve 4300 is
a nozzle end penetrating needle 4310 installed in a moving state along the first path 4110 inside the first path 4110;
It is fixedly installed in a part of the first path 4110 and is discharged or returned in a straight direction so that the nozzle end penetrating needle 4310 passes through the nozzle end 4130 according to a corresponding control signal of the system controller 2000 . a nozzle solenoid 4320; A sterilization and disinfection fog system by capturing moisture in the atmosphere, including:
10. The method of claim 9,
The air nozzle unit 4100 is a sterilization and disinfection fog system by collecting moisture in the atmosphere, characterized in that it is made of Teflon or coated with Teflon.
11. The method of claim 10,
The nozzle end penetrating needle 4310 is a sterilization and disinfection fog system by collecting moisture in the atmosphere, characterized in that the entire outer surface is coated with Teflon.
6. The method of claim 5,
The nano-bubble potential unit 7000 is
a potential water generating unit 7100 that receives a high voltage potential in the range of 1000 to 5000 volts according to a corresponding control signal of the system control unit 2000 and generates a potential water in which oxygen converted into an activated state is dissolved in purified water;
a potential water pump 7200 for withdrawing a fixed amount of the raw water solution stored in the mixing tank 2500 according to a corresponding control signal from the system control unit 2000 and flowing it back into the mixing tank 2500;
Potential water is applied to the raw water solution connected to the potential water generator 7100, the potential water pump 7200, and the mixing tank 2500, respectively, and drawn from the mixing tank 2500 in a fixed amount by the potential water pump 7200. After mixing in the form of nanometer-sized bubbles, the venturi unit 7300 is introduced into the mixing tank unit 2500 again; A sterilization and disinfection fog system by capturing moisture in the atmosphere, including:

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