KR101688577B1 - Direct injection nozzle type humidification system using nanobubbles - Google Patents

Abstract

The present invention relates to a humidifying system used in an air conditioner and a thermo-hygrostat provided in a constant temperature and humidity facility such as a semiconductor manufacturing facility, a mushroom culture house, a house, etc. According to the present invention, due to excessive power consumption and frequent parts replacement In order to solve the problems of the prior art humidifying systems in which the maintenance cost is increased, the supply water is first purified by using a membrane filter, and anion generation, sterilization and foreign matters are precipitated using the nano bubbles, By optimizing the molecular activity of the nano bubble immediately before injection using ultrasonic vibrator and supplying the humidification in the form of fine particles through the direct particle nozzle, it is possible to reduce the maintenance cost by improving the excessive power consumption To remove fine dust, to sterilize humidifying water, and to precipitate impurities. A direct atomizing nozzle type humidifying system using nano bubbles is provided which is constructed so as to be easily adapted to existing air conditioners and thermostats and hygrostats with a simple configuration.

Description

[0001] The present invention relates to a direct injection nozzle type humidification system using nanobubbles,

The present invention relates to a humidifying system, and more particularly, to a direct atomic nozzle humidifying system using a nano bubble provided in a constant temperature and humidity facility such as a semiconductor manufacturing facility, a mushroom culture facility, a housing facility, and the like.

In order to solve the problems of conventional humidification systems used in conventional air conditioners and thermo-hygrostats, in which power is excessively operated and maintenance costs such as replacement of components are increased, excessive power consumption is improved To reduce the maintenance cost, and to establish an environmentally friendly system by disinfecting humidified water and depositing impurities, and also to a direct atomic nozzle type humidifying system using nano bubbles which can be easily compatible with conventional air conditioners and thermo-hygrostats will be.

In addition, in the present invention, an electric heater is provided in the water tank, and the temperature is raised by microbubbles to form a section of the hot water temperature of about 75 to 80 DEG C where the effect of humidification is maximized, The ultrasonic vibrator is installed so that the vibrator starts to vibrate at the start of the humidification so as to generate instantaneous heat by causing collision between particles to increase the humidifying effect, The present invention relates to a direct atomizing nozzle type humidifying system using a nano bubble which is capable of achieving a humidifying effect of 1.5 to 2 times and an optimized humidity distribution to be uniform.

Conventionally, air conditioner systems for air supply and circulation are installed in facilities that require constant temperature and humidity such as semiconductor manufacturing facilities, mushroom culture companies, housing, etc., and these air conditioner systems are provided with an internal temperature sensor Humidification system is provided.

Here, as an example of the prior art for the humidifying system of the air conditioner system as described above, there is a "temperature and humidity control device" as disclosed in Korean Patent Registration No. 10-1212538, for example.

More specifically, the temperature and humidity control device disclosed in the above-mentioned Japanese Patent No. 10-1212538 includes a heater operation switch connected in series with a heater to a control panel for controlling and maintaining the temperature and humidity of the accommodation space formed inside the body frame, A series connection of the injector operation switch, and a chiller operation switch connected in series with the freezer. After the defrosting of the frozen dough, the low temperature fermentation process and the high temperature fermentation process and the baking / confectionery such as frozen dough, butter, margarine, The present invention relates to a temperature and humidity control device that can be used not only as a conditioner for baking that simultaneously performs freeze storage of food materials but also as a dryer.

In addition, another example of the prior art for the humidifying system of the air conditioner system as described above is disclosed in, for example, Korean Patent Registration No. 10-0558273, entitled "Natural Humidification System and Natural Humidification Type Air Purifier "

More specifically, the natural humidification system and the natural humidification type air purifier shown in the above-mentioned Japanese Patent No. 10-0558273 are constructed such that the water absorbed in the humidifying filter is introduced into the room using air purified by other filters And a natural humidifying type air cleaner provided with humidifying air to be cleaned in a room in a naturally occurring manner.

Further, another example of the prior art for the humidifying system of the air conditioner system as described above is, for example, a "nozzle spray type humidifying system for a dough conditioner fermenter" as disclosed in Korean Patent Publication No. 10-0405856 .

More specifically, the nozzle injection type humidifying system for a dough conditioner fermenter as set forth in the above-mentioned Japanese Patent No. 10-0405856 is used to maintain and adjust the humidity of the inside of the dough conditioner fermenter used for baking or confectionery A heating means for heating the water sprayed from the atomizing means; and a fan for circulating the inside air, wherein the heating means has a substantially circular shape, And a nozzle spray type humidifying system for a dough conditioner fermenter configured to surround the spraying means so as to surround the sprayed water from the spraying means.

Further, another example of the prior art for the humidifying system of the air conditioner system as described above is, for example, the "agricultural product storage humidifying system " as disclosed in Korean Utility Model Registration No. 20-0407679.

More specifically, the agricultural product storage humidification system disclosed in the above-mentioned Registration Utility Model No. 20-0407679 is used for humidification in order to keep the humidity of the storage tank constant and prevent water droplets from being mixed in the air, A spray device for spraying water to a nozzle or an injection port formed on the other side of the tank, the water supply pipe for supplying water or an air conditioner condensate to the tank, And an air supply device for sucking air humidified by the humidification unit and discharging the humidified air to the agricultural product storage, the humidification system comprising a nozzle or an injection port of the apparatus.

As described above, conventionally, various technical contents of the humidifying system have been proposed. However, the humidifying systems of the related art as described above have the following problems.

More specifically, conventional humidifying systems are roughly divided into a STEAM INJECTION humidifier, a PAN TYPE humidifier, an electro-electrode humidifier, a vaporized humidifier, and a direct-injection humidifier.

Here, the steam injection system is required to supply water for generating steam, install boiler equipment and steam piping, and in addition to such a boiler facility and a piping facility, there is a problem that the initial investment cost is increased.

In addition, the PAN TYPE humidifier uses electric power to the heater rod to boil the water, consuming a lot of electric power, frequent shorting of the electric heater and accumulation of the scale of the humidifying water, and it is necessary to perform periodic cleaning every 2 to 3 months And so on.

In addition, the electro-electrode type humidifier has a built-in current plate to generate electric power to the electric electrode to generate heating steam. Therefore, the electric power consumption is high and periodic cleaning is required every approximately one month to prevent scale formation. It is necessary to replace the cylinder periodically every six months, thereby increasing the maintenance cost.

Furthermore, the evaporative humidifier is a humidifier which humidifies by vaporizing it by passing air through a vaporizing evaporation medium, while humidifying particles are small. When installed at the rear of the cooling coil due to low humidification efficiency relative to the amount of water input, 90% or more), so that the efficiency is not satisfied even if the capacity is designed to be more than 200T when the heating and humidifying capacity is more than 200T when the heating and humidifying is performed, and the size of the equipment for obtaining the required humidification amount is large, , Deterioration of efficiency in impurity deposition, and deterioration of controllability occur.

Also, in general, the air conditioning system consumes a very large amount of energy so as to occupy about 10 to 30% of the power consumed in the entire process. Therefore, the conventional air conditioner requires a high discharge gas temperature of the compressor And reheating it by using the outdoor air introduction system or cooling the outdoor air during the intermediate period.

However, in the conventional direct injection type humidifier, there is a problem that the efficiency of humidification is reduced during the passage of the filter due to the large injection particles, frequent nozzle clogging causes a high possibility of device malfunction, and spray particles are condensed on the air supply fan and the duct portion.

As described above, conventionally, various studies for energy saving of an air conditioner and the like have been made. However, in the humidifying systems of the related art, maintenance cost is increased due to use of excessive power when the humidifier is used, There is a problem in that the maintenance cost due to the increase in the cost is increased.

Therefore, in order to solve the problems of the conventional humidifiers such as the air conditioner, it is possible to construct an environmentally friendly humidification system by reducing the maintenance cost, improving the humidifying efficiency and reducing the CO ₂ , It is desirable to provide a humidifier with a new configuration that can be easily compatible with an air conditioner, but a device or a method that satisfies all of those requirements has not yet been provided.

[Prior Art Literature]

1. Korean Registered Patent No. 10-1212538 (Dec. 10, 2012)

2. Korean Patent Registration No. 10-0558273 (Feb. 28, 2006)

3. Korean Patent Registration No. 10-0405856 (Apr. 4, 2003)

4. Korean Registered Utility Model No. 20-0407679 (2006.01.25.)

SUMMARY OF THE INVENTION It is an object of the present invention to provide an air conditioning system which is applicable to a constant temperature and humidity facility such as a semiconductor manufacturing facility, a mushroom culture house, a house, etc., In order to solve the problems of the conventional humidifying systems in which the operation cost is increased and the maintenance cost is increased due to the necessity of the periodical cleaning and parts replacement, there is a problem that unnecessary power consumption A humidification system using a nano bubble which is configured to be compatible with an existing air conditioner can be provided as well as an environmentally friendly humidifying system can be constructed by suppressing fine dust, I would like to.

It is another object of the present invention to provide a humidifying system in which the operation cost is increased due to excessive power consumption and the maintenance cost is increased due to the necessity of periodical cleaning and parts replacement, In order to solve this problem, a membrane filter is used to remove the oxidized substances such as fine floating materials and iron particles to prevent the adverse effects or defects caused by fine dusts, It generates and sterilizes, and precipitates the foreign matter on the floor. Then, the supply water is purified by the second order. Ultrasonic oscillator is used to optimize the molecular activity of the nano bubble just before spraying and then to supply humidification in the form of fine particles through the direct nozzle. Thereby greatly improving the excessive power consumption of the air conditioner used in the air conditioning process In addition to minimizing the maintenance cost, it is possible to build up an environmentally friendly air conditioning system that is configured to increase the removal efficiency of fine dust and humidification mixed with air, and at the same time, it can be easily compatible with existing air conditioners The present invention provides a direct atomizing nozzle type humidifying system using a nano bubble of a new structure.

It is a further object of the present invention to provide an ultrasonic vibrator in which the temperature of the hot water is increased by installing an electric heater in the water tank and by micro bubbles, By increasing the humidification effect by allowing instantaneous heat to be generated by causing the vibrator to start vibrating at the start of the humidification and causing collision between particles to increase the humidifying effect, A humidification effect can be obtained, and a straight nozzle type humidification using a nano bubble, which is configured to uniformly perform an air distribution with optimized humidity distribution in the room by installing direct dust nozzles in an air conditioner and a thermo-hygrostat, System.

In order to achieve the above-mentioned object, according to the present invention, there is a problem of a conventional air conditioner and a humidifying system used in a thermo-hygrostat, which has a problem in that the maintenance cost is increased due to excessive operation of the electric power and frequent parts replacement A direct atomic nozzle type humidifying system using a nano bubble which is constructed so as to be able to reduce the maintenance cost by improving power consumption and to construct an environmentally friendly system and to be easily compatible with existing air conditioners and thermo-hygrostats An air inflow portion into which outside air flows; A temperature regulator for regulating the temperature of the air introduced from the air inlet; A humidity regulator for regulating the humidity by supplying water into the nanoparticles and injecting the water into the air passing through the temperature regulator; An air supply unit for supplying air having temperature and humidity adjusted by the temperature control unit and the humidity control unit to the room; And a filtration filter unit installed between the air inlet and the temperature control unit and between the humidity control unit and the air supply unit, respectively, wherein the direct filter nozzle type humidification system using nano bubbles is provided .

Here, the temperature controller may include: a filter for removing impurities from the air introduced from the air inlet; A heating coil for adjusting the temperature of the air introduced from the air inlet; And a cooling coil for controlling the temperature of the air introduced from the air inlet.

The humidity controller may further include: a supply water storage tank in which supply water is stored; A nano bubble generating unit for injecting compressed air into the feed water stored in the feed water storage tank to cause water particles to collide with each other to finely break water particles to generate sterilization and nano bubbles of the feed water; A direct atomizing nozzle for injecting nano bubbled water particles by the nano bubble generating unit; A supply water pump for supplying the nano-sized water particles from the supply water storage tank to the directivity nozzle; And a heater installed inside or outside the supply water storage tank to adjust the temperature of the supply water stored in the supply water storage tank.

The direct atomizing nozzle may include a single or a plurality of single-fluid nozzles for injecting nano-bubbled water particles by the nano bubble generating unit, so that the direct atomizing nozzle is optimized for indoor air supplied through the air supply unit So that the humidity distribution can be uniformly formed.

Further, the humidity controller raises the temperature of the feed water by causing the water particles to collide with each other through the nano bubble generator, and the heater controls the temperature of the feed water to be 75 To 80 DEG C, so that the humidifying effect can be increased.

Further, the humidity controller may further include an ultrasonic vibrator installed at a front end of the directivity nozzle, wherein the vibrator vibrates before the nano bubbled water particles are sprayed at the start of humidification to cause collision between particles So that the humidification effect can be further increased.

In addition, the filtration filter unit may include a HEPA filter as the filtration filter.

Further, the humidification system may further include a bypass duct and a damper installed on a side of the air supply chamber of the air supply unit to prevent internal vacuum and maintain a differential pressure.

Also, the humidifying system may be configured such that the air inlet, the temperature controller, the humidity controller, and the air supply unit are each modularized into chambers having independent structures, and a humidifying capacity So that it is possible to minimize an on-site installation process without the need for construction of a separate structure.

According to the present invention, there is also provided an air conditioner system for supplying indoor air and circulating indoor air while keeping the temperature and humidity constant at a facility requiring constant temperature and humidity, wherein the direct atomic nozzle humidifying system using the nano- It is possible to reduce the maintenance cost by reducing the power consumption, and it is possible to construct an environmentally friendly system by removing fine dust, disinfecting humidifying water and precipitating impurities, and being easily compatible with existing air conditioners and thermo-hygrostats An air conditioner system is provided.

As described above, according to the present invention, in an air conditioning system applied to a constant temperature and humidity facility such as a semiconductor manufacturing facility, a mushroom culture house, a house, etc., unnecessary power consumption used in the air conditioning process is suppressed, The present invention provides a direct atomizing nozzle type humidifying system using a nano bubble configured to increase an efficiency of humidification and to construct an environmentally friendly humidifying system and adapted to be easily compatible with existing air conditioners, It is possible to solve the problems of the conventional humidifying systems in which the operation cost is increased and the maintenance cost is increased due to the necessity of periodical cleaning and parts replacement.

In addition, according to the present invention, as described above, since the power consumption is excessive and the operation cost increases, the maintenance cost increases due to the necessity of periodical cleaning and parts replacement. A membrane filter is used to remove oxidizing substances such as fine floating materials and iron powder to prevent the adverse influence or defect caused by fine dust or the like, And the sterilization is performed. The foreign matter is settled on the bottom to purify the supply water in the second order. Ultrasonic vibrator is used to optimize the molecular activity of the nano bubbles immediately before the injection and supply the humidification in the form of fine particles through the direct particle nozzle , It is possible to dramatically improve the excessive power consumption of the air conditioner used in the air conditioning process, It is possible to construct an environmentally friendly air conditioning system by removing fine dust mixed with air and increasing the humidifying efficiency, and at the same time, it is possible to construct a new air conditioning system which can be easily compatible with existing air conditioners It is possible to provide a direct atomizing nozzle type humidifying system using the nano bubbles of the constitution.

In addition, according to the present invention, an electric heater is installed inside the water tank and the temperature of the hot water is raised by micro bubbles to form a temperature range of about 75 to 80 DEG C, which is the interval in which the humidifying effect is maximized, and an ultrasonic vibrator When the humidification starts, the vibrator begins to vibrate and collide with the particles. By generating the instantaneous heat, the humidification effect is increased, so that the humidification effect is 1.5 to 2 times higher than that of the normal supply of 15 to 20 ℃ A direct atomizing nozzle system using nano bubbles is provided which is configured to uniformly distribute the air distribution with optimized humidity distribution in the room by installing a direct atomizing nozzle inside the air conditioner and the thermo-hygrostat can do.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing a general configuration of a direct atomizing nozzle type humidifying system using a nano bubble according to an embodiment of the present invention; FIG.
FIG. 2 is a view schematically showing the overall configuration of a humidity regulator of a direct atomizing nozzle type humidifying system using a nano bubble according to an embodiment of the present invention shown in FIG. 1. FIG.
FIG. 3 is a view schematically showing a specific configuration of a humidity controller of a direct atomizing nozzle type humidifying system using a nano bubble according to an embodiment of the present invention shown in FIG. 1. FIG.

Hereinafter, with reference to the accompanying drawings, a specific embodiment of a direct atomizing nozzle type humidifying system using a nano bubble according to the present invention will be described.

Hereinafter, it is to be noted that the following description is only an embodiment for carrying out the present invention, and the present invention is not limited to the contents of the embodiments described below.

In the following description of the embodiments of the present invention, parts that are the same as or similar to those of the prior art, or which can be easily understood and practiced by a person skilled in the art, It is important to bear in mind that we omit.

That is, the present invention provides an air conditioning system applied to a constant temperature and humidity facility such as a semiconductor manufacturing facility, a mushroom culture house, a house, etc., as described later, In order to solve the problems of the conventional humidifying systems which have a problem in that the maintenance cost is increased due to the necessity of replacing the parts, unnecessary power consumption used in the air conditioning process is suppressed when using the humidifier, the fine dust is removed, The present invention relates to a direct atomic nozzle type humidifying system using a nano bubble configured to be easily adaptable to an existing air conditioner.

Further, the present invention solves the problem of the prior art humidifying systems in which there is a problem that the maintenance cost is increased due to an increase in the operating cost due to excessive power consumption and periodical cleaning and parts replacement as described later In order to prevent adverse influences or defects due to fine dusts and the like, a membrane filter is used to remove oxidized substances such as fine suspended particles and iron particles, thereby purifying the supplied water in the first place, The nano bubbles are made to be sterilized, the foreign matter is settled on the bottom, and the supply water is purified in the second order. Ultrasonic vibrators are used to optimize the molecular activity of the nano bubbles immediately before the injection and supply the humidification in the form of fine particles through the direct injection nozzles, The air conditioning system of the present invention can significantly improve the power consumption of the air conditioner used in the air conditioning process, In addition to minimizing the cost, it is possible to construct an environmentally friendly air conditioning system which is configured to increase the removal efficiency of fine dust mixed with air and the humidification efficiency, and at the same time, The present invention relates to a direct atomizing nozzle type humidifying system using nano bubbles.

In addition, as described later, in the present invention, the hot water temperature is raised by the installation of an electric heater and micro bubbles in the water tank to form a water bath at a temperature of about 75 to 80 DEG C, By installing a vibrator, the vibrator starts to vibrate when the humidification starts. By causing the collision between the particles, instantaneous heat can be generated, thereby increasing the humidifying effect. As a result, 1.5 to 2 times And a direct atomizing nozzle using a nano bubble which is configured to uniformly distribute the air distribution with optimized humidity distribution in the room by installing a direct atomizing nozzle inside the air conditioner and the thermo-hygrostat The present invention relates to a humidifying system.

Next, with reference to the drawings, a specific embodiment of the direct atomizing nozzle type humidifying system using the nano bubbles according to the present invention will be described.

First, referring to FIG. 1, FIG. 1 is a view schematically showing a specific structure of a direct atomizing nozzle type humidifying system 10 using a nano bubble according to an embodiment of the present invention.

As shown in FIG. 1, the direct atomic nozzle type humidifying system 10 using the nano bubbles according to the embodiment of the present invention can be roughly divided into two types, for example, a blowing means such as a fan, A filter 12 for removing impurities such as dust from the air introduced from the air inlet 11, a heating coil 13 for controlling the temperature, and a cooling coil 14 A humidity adjusting unit 16 for adjusting the humidity of the air passing through the temperature adjusting unit 15 by injecting microparticles of the feed water and injecting the water; And a supply unit 17 for supplying air having temperature and humidity adjusted by the unit 15 and the humidity control unit 16 to the inside of the clean room using a blowing means such as a fan.

1, between the air inlet 11 and the temperature controller 15 and between the humidity controller 16 and the air feeder 17, HEPA FILTER) can be installed, respectively.

Therefore, when the air introduced from the air inlet 11 passes through the filter 18 and is supplied to the temperature regulating unit 15, the filter 12 installed in the temperature regulating unit 15, And is then made into air at an appropriate temperature by the heating coil 13 and the cooling coil 14 and then passed through the humidity control unit 16 for microparticulating and feeding the feed water as described later, The impurities are removed by passing through the filtration filter 19 again, and clean air controlled at an appropriate temperature and an appropriate humidity is supplied into the clean room through the air supply part 17. [

Next, with reference to FIG. 2, the detailed configuration of the humidity controller 16 of the direct atomizing nozzle type humidifying system 10 using the nano bubbles according to the embodiment of the present invention will be described in detail.

2 is a block diagram schematically showing the configuration of the humidity controller 16 of the direct atomizing nozzle type humidifying system 10 using the nano bubble according to the embodiment of the present invention shown in FIG. to be.

2, the humidity controller 16 of the direct atomizing nozzle type humidifying system 10 using the nano bubble according to the embodiment of the present invention firstly controls the temperature controller 15 And the membrane filter 22 is used to purify the impurities of the feed water and store the impurities in the feed water tank 23.

In addition, the humidity controller 16 described above injects compressed air into the feed water stored in the feed water tank 23 through the nano bubbling device 24 to cause water particles to collide with each other, The supply water is sterilized and nano bubbles are generated, and the sterilized and nano-bubbled supply water is jetted by the feed water pump 25 together with compressed air through the direct atomizing nozzle 26 And controls the humidity of the air that has passed through the temperature regulating part 15. [

Here, the directivity nozzle 26 may be composed of a single nozzle or may include a plurality of single-fluid nozzles.

In addition, the humidity controller 16 raises the temperature of the water to be supplied by causing the water particles to collide with each other through the nano bubbling device, and at the same time, as shown in Fig. 2, By providing the electric heater 27 inside or outside, the temperature of the supplied water is set to about 75 to 80 DEG C, which is the section where the humidifying effect is maximized.

Furthermore, although the moisture regulator 16 is not shown, before the nanobubbled water particles are sprayed as described above, the ultrasonic vibrator is installed at the front end of the direct atomizing nozzle 26, The vibrator starts to vibrate at the start, causing collision between particles, so that instantaneous heat can be generated so that the humidification effect can be further increased.

Therefore, according to the present invention, it is possible to obtain a humidifying effect of 1.5 to 2 times as much as that in the case of using the normal supply water at 15 to 20 ° C., and also to provide a direct spray nozzle inside the air conditioner and the thermo-hygrostat The air distribution can be uniformly achieved with an air distribution whose humidity distribution is optimized indoors.

More specifically, referring to FIG. 3, FIG. 3 shows a schematic configuration of a humidity controller 16 of a direct atomizing nozzle type humidifying system 10 using a nano bubble according to an embodiment of the present invention shown in FIG. Fig.

3, the humidity controller 16 of the direct atomizing nozzle type humidifying system 10 using nano bubbles according to the embodiment of the present invention roughly includes a supply water storage tank 31 for storing supply water, And a nano bubble generating unit for generating nano bubbles while finely dividing water particles by causing water particles to collide with each other by injecting compressed air into the feed water stored in the feed water storage tank 31, 32, a direct atomizing nozzle 33 comprising a single or plural one-fluid nozzles for injecting nano-bubbled water particles by the nano bubble generating section 32, a supply water storage tank 31, A feed water pump 34 for supplying nano bubbled water particles to the direct particle nozzle 33 and a heater 35 for adjusting the temperature of the feed water stored in the feed water storage tank 31, .

3, when the compressed air is supplied to the feed water stored in the feed water storage tank 31 by the nano bubble generator 32 and the feed water becomes nano bubbled, Bubbling supply water is supplied to the directivity nozzle 33 by the water pump 34 and is injected into the air whose temperature has been adjusted through the temperature regulating unit 15 so that clean air Can be configured to be supplied through the filter (19) and the supply portion (17).

At this time, by providing the heater 35 inside or outside the feed water tank 23, the temperature of the feed water is set to about 75-80 캜, which is the section where the humidifying effect becomes the maximum, It is possible to obtain a humidifying effect of about 1.5 to 2 times as much as that of the usual supply of water at 15 to 20 ° C as in the conventional method, The humidity distribution optimized by the nozzle 33 can be uniformly formed.

Here, the principle of the nano bubble applied to the present invention will be described. Generally, the bubbles rise in water and disappear from the water surface, but the nano bubbles mean air bubbles having a particularly small size among the bubbles floating in the liquid. It is known that there is a low rising rate, a self-pressurizing effect and excellent gas dissolving ability, generation of pre-radicals, destruction by pressure (crushing), cleaning by contaminants or static electricity, For example, nano-bubbled water is known to be capable of sustaining bactericidal effects for a long time, and the activity effect on living organisms has been acknowledged, and its use in fields such as food processing, agriculture, fishery and water purification has been expanded.

In addition, the conventional direct injection type humidifier only forms sprayed particles having a particle size of about 5 탆 to 20 탆, which limits the atomization of sprayed particles. Due to the relatively large and uneven particle size, for example, , And the humidification efficiency is lowered (average 40%) due to excessive condensed water generation due to condensation in the pre-fogging stage without passing through the HEPA filter (0.3 μm to 99.997% collection) at the clean room end. However, according to the present invention , As described above, the supply water is made into a nano bubble to sterilize and clean all the piping parts at the same time, and the anion is generated 10 to 20 times as much as the naturally occurring amount around the waterfall water, so that these anions are formed in the air conditioner, It can also help your health.

In addition, the principle of generating nano bubbles in the present invention is based on the principle of increasing the solubility of the gas in proportion to the pressure in general, using a pressurization (pressure-decompression) method.

More specifically, when a sufficient amount of gas at a high pressure higher than a certain level is dissolved in water and then the pressure is released, water becomes supersaturated with respect to the gas. Since the supersaturated state is extremely unstable, And as a result, a large amount of air bubbles can be generated in the water.

In this case, since it is not possible to use bubbles only in water by generating bubbles in water, a method for continuously generating nano bubbles is required while taking out bubbles generated. For this purpose, a pump is used in the present invention.

That is, when the pump starts to suck water, the pressure on the suction side becomes lower than the environmental pressure and the extruded side becomes higher, so that air can be obtained together with water on the suction side, and a nozzle is provided on the tip of the extrusion side, The pressure on the extruded side can be further increased by providing a gas dissolving tank in the path on the extruding side so that the gas obtained as described above can be dissolved in water under high pressure.

Therefore, the pressurization-dissolving type nano bubble generator can continuously generate minute bubbles by using this principle.

Also, in the case of a direct atomizing nozzle, the particle diameter to be injected may be varied depending on the pressure of the supplied liquid, the air pressure, and the nozzle tip size. In the case of the commercialized nozzle, the optimized water pressure and air pressure are determined. The optimal air pressure and the water pressure setting for generating the atomized particles of the airflow can be different from each other. Therefore, in order to always maintain the optimum setting, for example, a variable resistance valve is provided, So that the optimum condition can always be maintained.

In addition, the direct-atomic nozzle type humidifying system 10 using the nano bubbles according to the embodiment of the present invention is provided with a BY-PASS duct as a countermeasure against internal vacuum, though not shown, on the side of the air supply and supply chamber The pressure difference is maintained, and an electric damper and a differential pressure meter are provided to maintain the differential pressure, thereby enabling smooth humidification due to maintenance of a constant differential pressure.

Further, in the existing air conditioner, when the conventional humidifier is installed, complicated installation work such as wiring and piping must be performed concurrently, and there is a problem that the installation can not be performed due to the space restriction of the air conditioner. However, The direct atomic nozzle type humidifying system 10 using nano bubbles according to the example includes an air inlet 11, a temperature controller 15, a humidity controller 16 and a supply unit 17, Wiring and connecting materials are modularized as independent structures, and the optimal size of the chamber is selected for each humidification capacity to facilitate the installation of existing air conditioners, thereby minimizing the on-site installation process Or < / RTI >

Therefore, the direct atomic nozzle type humidifying system using the nano bubble according to the present invention can be implemented as described above.

Also, by implementing the direct atomic nozzle type humidifying system using the nano bubbles according to the present invention as described above, according to the present invention, it is possible to provide a humidifying system which is applicable to a constant temperature and humidity facility such as a semiconductor manufacturing facility, System, it is possible to construct an environmentally friendly humidifying system by suppressing unnecessary power consumption used in the air conditioning process, removing fine dust and the like, increasing the humidifying efficiency, and being configured so as to be easily compatible with existing air conditioners A conventional direct humidifying system using a nano bubble has been developed. In this case, the conventional humidifier has a problem in that the operating cost is increased due to excessive power consumption when the humidifier is used, the maintenance cost is increased due to the necessity of periodical cleaning and parts replacement, The problems of the systems can be solved.

In addition, according to the present invention, as described above, the problem of the conventional humidifying systems in which the operation cost increases due to excessive power consumption and the maintenance cost increases due to the necessity of periodical cleaning and parts replacement is solved A membrane filter is used to remove oxidizing substances such as fine floating materials and iron powder to prevent the adverse influence or defect caused by fine dust or the like, And the sterilization is performed. The foreign matter is settled on the bottom to purify the supply water in the second order. Ultrasonic vibrator is used to optimize the molecular activity of the nano bubbles immediately before the injection and supply the humidification in the form of fine particles through the direct particle nozzle , Dramatically improves and maintains excessive power consumption of the air conditioner used in the air conditioning process In addition to minimizing the management cost, it is possible to construct an environmentally friendly air conditioning system by increasing the removal of fine dust mixed with air and increasing the humidifying efficiency, and at the same time, it is possible to construct a new air conditioning system which can be easily compatible with existing air conditioners It is possible to provide a direct atomizing nozzle type humidifying system using the nano bubbles of the constitution.

Further, according to the present invention, as described above, the temperature of the hot water is increased by the installation of the electric heater and micro bubbles in the inside of the water tank, thereby forming the water bath at a temperature of about 75-80 DEG C, By installing an ultrasonic vibrator, the vibrator starts to vibrate at the start of humidification, causing instantaneous heat by generating collision between particles. By increasing the humidifying effect, it is possible to increase the humidifying effect by 1.5 to 2 A direct atomizing nozzle using a nano bubble configured to uniformly perform an air distribution optimized for humidity distribution in the room by installing a direct atomizing nozzle inside the air conditioner and the thermo-hygrostat, Type humidifying system can be provided.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

10. Humidification system 11. Air inlet
12. Filter 13. Heating coil
14. Cooling coil 15. Temperature control unit
16. Humidity control section 17. Supply section
18. Filtration filter 19. Filtration filter
21. Air filter 22. Membrane filter
23. Feed water tank 24. Nano bubbling device
25. Feed water pump 26. Direct atomizer nozzle
27. Heater 31. Feed water storage tank
32. Nano bubble generating part 33. Direct atomizing nozzle
34. Feed water pump 35. Heater

Claims (10)

In order to solve the problems of conventional humidification systems used in air conditioners and thermo-hygrostats, which have problems of excessive power operation and frequent parts replacement, maintenance costs have been reduced and the maintenance cost has been reduced In the direct atomic nozzle type humidification system using nano bubbles, which is constructed so as to be able to construct an environmentally friendly system and easily adaptable to existing air conditioners and thermo-hygrostats,
An air inflow portion into which outside air flows;
A temperature regulator for regulating the temperature of the air introduced from the air inlet;
A humidity regulator for regulating the humidity by supplying water into the nanoparticles and injecting the water into the air passing through the temperature regulator;
An air supply unit for supplying air having temperature and humidity adjusted by the temperature control unit and the humidity control unit to the room; And
And a filtration filter unit provided between the air inlet and the temperature control unit and between the humidity control unit and the air supply unit,
The humidity controller may include:
A feed water storage tank in which the feed water is stored;
A nano bubble generating unit for injecting compressed air into the feed water stored in the feed water storage tank to cause water particles to collide with each other to finely break water particles to generate sterilization and nano bubbles of the feed water;
A direct atomizing nozzle for injecting nano bubbled water particles by the nano bubble generating unit;
A feed water pump for feeding said nanobubbled water particles from said feed water storage tank to said direct atomizer nozzle; And
And a heater installed inside or outside the supply water storage tank for controlling the temperature of the supply water stored in the supply water storage tank,
The temperature of the feed water is increased by causing the water particles to collide with each other through the nano bubble generating portion and the temperature of the feed water is set to 75 to 80 DEG C which is the section where the humidifying effect is maximized by the heater, Wherein the direct humidification system is configured to increase the efficiency of the direct humidification system.
The method according to claim 1,
The temperature controller may include:
A filter for removing impurities from the air introduced from the air inlet;
A heating coil for adjusting the temperature of the air introduced from the air inlet; And
And a cooling coil for controlling the temperature of the air introduced from the air inlet. The nano bubble-based direct atomic nozzle type humidifying system according to claim 1,
delete The method according to claim 1,
The straight line spray nozzle
And a single or a plurality of first fluid nozzles for spraying nano-bubbled water particles by the nano bubble generator,
And a humidity distribution optimized for indoor air supplied through the air supply unit can be uniformly formed.
delete The method according to claim 1,
The humidity controller may include:
And an ultrasonic transducer disposed at a front end of the direct atomizing nozzle,
And the nano bubbled water particles are sprayed at the start of the humidification so that the vibrator vibrates and collides with the particles to generate heat, thereby increasing the humidification effect. Direct atomization nozzle type humidification system using bubble.
The method according to claim 1,
The filtration filter unit,
And a HEPA filter as a filtering filter. The direct atomic nozzle type humidifying system using nano bubbles.
The method according to claim 1,
In the humidifying system,
And a bypass duct and a damper installed on a side of the air supply chamber of the air supply unit in order to prevent internal vacuum and maintain a pressure difference, and a damper.
The method according to claim 1,
In the humidifying system,
Wherein the air inlet, the temperature controller, the humidity controller, and the supply unit are each modularized into chambers having independent structures,
And an optimal size of each chamber is selected according to a humidifying capacity so as to be installed in an existing air conditioner for each of the chambers. Thus, it is possible to minimize the on-site installation process without requiring a separate structure construction Direct atomization nozzle type humidification system using bubble.
1. An air conditioner system for supplying indoor air and circulating indoor air by maintaining a constant temperature and humidity in a facility requiring constant temperature and humidity,
By using the direct atomizing nozzle type humidifying system using the nano bubbles according to any one of claims 1, 2, 4, and 6 to 9,
It is possible to improve the power consumption to reduce the maintenance cost, to remove the fine dust, to sterilize the humidifying water and precipitate the impurities, thereby making it possible to construct an environmentally friendly system, and to be easily compatible with the existing air conditioner and the thermo-hygrostat Features an air conditioning system.

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