KR102532254B1 - Air purification system using electrostatic spray - Google Patents

Abstract

An air purifying system using electrostatic spray according to an embodiment of the present invention removes contaminants in the inhaled air through liquid droplets sprayed through electrostatic spray, and discharges the purified air from which the contaminants are removed. In the used air purifying system, a case part forming an accommodation space therein, a suction part communicating with a suction hole formed in front of the case part, and sucking outside air into the accommodation space by an applied power source, and a suction part in front of the case part Formed, the discharge part communicates with the discharge hole disposed on the upper side of the suction hole to provide a passage through which the bet in the accommodation space is discharged to the outside, disposed in the accommodation space, generating electrostatic spray by the applied power A circulation path disposed below the electrostatic spray unit and the case unit, supplying water used for the electrostatic spray, collecting mist generated by the electrostatic spray, and supplying the collected water to the electrostatic spray It may include a water supply unit that provides.

Description

Air purification system using electrostatic spray}

The present invention relates to an air purifying system using electrostatic spray, and more particularly, to an electrostatic spray that removes pollutants in the inhaled air through liquid droplets sprayed through electrostatic spray and discharges the purified air from which the pollutants are removed. It is about the air purification system used.

Recently, in a situation where air pollution caused by fine dust is accelerating, interest in the atmospheric environment is increasing worldwide.

In order to cope with such air pollution, air purifiers are widely used indoors. It is a HEPA filter-type air cleaning system that is widely used industrially.

However, such a filter-type air cleaning system has problems such as the inconvenience of periodically replacing filters, noise, energy loss, and generation of secondary harmful substances.

Therefore, there is an urgent need to develop a technology capable of purifying indoor air in an eco-friendly way without frequent filter replacement work and without noise or energy loss.

Korean Patent Registration No. 10-2284715

SUMMARY OF THE INVENTION An object of the present invention is to provide an air purifying system that removes pollutants from inhaled air through liquid droplets sprayed through electrostatic spray and discharges purified air from which pollutants are removed.

An air purifying system using electrostatic spray according to an embodiment of the present invention removes contaminants in the inhaled air through liquid droplets sprayed through electrostatic spray, and discharges the purified air from which the contaminants are removed. In the used air purifying system, a case part forming an accommodation space therein, a suction part communicating with a suction hole formed in front of the case part, and sucking outside air into the accommodation space by an applied power source, and a suction part in front of the case part Formed, the discharge part communicates with the discharge hole disposed on the upper side of the suction hole to provide a passage through which the bet in the accommodation space is discharged to the outside, disposed in the accommodation space, generating electrostatic spray by the applied power A circulation path disposed below the electrostatic spray unit and the case unit, supplying water used for the electrostatic spray, collecting mist generated by the electrostatic spray, and supplying the collected water to the electrostatic spray and a water supply unit providing water, wherein the case unit includes a partition unit that divides the accommodation space into an upper space and a lower space, and outside air introduced into the lower space through the suction unit passes through the electrostatic spraying unit to the upper part. It may be discharged to the discharge unit through the space.

The water supply unit of the air purifying system using electrostatic spraying according to an embodiment of the present invention is connected to a water tank formed on the lower side of the accommodation space and the electrostatic spraying unit, and provides a passage through which water is moved. A spray pipe and a supply pump formed between the water tank unit and the electrostatic spray pipe to supply water accommodated in the water tank unit to the electrostatic spray pipe, wherein the electrostatic spray unit generates a constant voltage with applied power. A voltage generating unit, a spray nozzle unit for spraying the water supplied from the electrostatic spray pipe into fine droplets in the form of mist, and a spray providing an air flow path from the lower space to the upper space while surrounding the spray nozzle unit A cylindrical portion may be provided, and the voltage generating portion may apply voltage so that liquid droplets sprayed through the spray nozzle portion exhibit electrical properties.

The spray nozzle part of the air purifying system using electrostatic spray according to an embodiment of the present invention includes a main nozzle part connected to the electrostatic spray pipe and a plurality of branch nozzle rods diverging from the main nozzle part and arranged radially. And, the main nozzle part is opened at one side and communicates with the electrostatic spray pipe, and the other end is closed so that the received water is sprayed to the plurality of branch nozzle rods, from one side of the main nozzle part. It is formed so that the size of the injection inner diameter decreases toward the other side, and it is possible to prevent a change in injection force due to an increase in water pressure in the longitudinal direction of the main nozzle part.

The plurality of branch nozzle rods of the air purifying system using electrostatic spray according to an embodiment of the present invention include a first nozzle rod formed with a first inner diameter, a second nozzle rod formed with a second inner diameter smaller than the first inner diameter, the It is composed of a third nozzle rod formed with a third inner diameter smaller than the second inner diameter and a fourth nozzle rod formed with a fourth inner diameter smaller than the third inner diameter, wherein the main nozzle unit has the first nozzle rod and the second nozzle rod alternately Consisting of a first section and a second section in which the third nozzle rod and the fourth nozzle rod are alternately arranged, the first nozzle rod and the second nozzle rod are arranged from the upper side to the lower side of the main nozzle unit In the first section facing, the third nozzle rod and the fourth nozzle rod are alternately arranged at a certain distance apart, and the third nozzle rod and the fourth nozzle rod are alternately spaced apart at a certain distance in the second section on the lower side of the first section. can be placed.

The first nozzle rod of the air purifying system using electrostatic spray according to an embodiment of the present invention has a spray inner diameter of 0.66 to 0.70 mm, and the second nozzle rod has a spray inner diameter of 0.49 to 0.53 mm, and the third nozzle The rod may have a spray inner diameter of 0.30 to 0.34 mm, and the fourth nozzle rod may have a spray inner diameter of 0.26 to 0.29 mm.

In the air purifying system using electrostatic spray according to an embodiment of the present invention, the first nozzle rod and the second nozzle rod are alternately disposed three times, and the third nozzle rod and the fourth nozzle rod are alternately disposed two times. can be placed as

An air purifying system using electrostatic spray according to an embodiment of the present invention includes a mode control unit for controlling the suction unit and the voltage generator according to a cycle set by a user, and the mode control unit operates through the suction unit. A purification mode for purifying the moved beetle and a washing mode for cleaning the inner circumferential surface of the spray cylinder may be implemented, and the washing mode may be implemented according to a preset cycle.

The mode control unit of the air purifying system using electrostatic spray according to an embodiment of the present invention, in the case of the purification mode, drives the suction unit, the voltage generator unit, and the spray nozzle unit, and in the washing mode In this case, it is possible to stop driving the suction unit, stop driving the voltage generating unit, and drive the spray nozzle unit.

In the air purifying system using electrostatic spraying according to an embodiment of the present invention, the main nozzle unit is rotatably connected to the electrostatic spray pipe, and the mode control unit, when in the washing mode, the main nozzle unit sprays the electrostatic spray It can be rotated based on the pipe.

The water supply unit of the air purifying system using electrostatic spray according to an embodiment of the present invention includes an air purge tank unit that removes air generated in the water tank unit, and water that removes foreign substances from the water contained in the water tank unit and sterilizes the water. A water level control unit having a filter unit, a water supply pipe receiving constant water from the outside, and a water level control measuring unit for measuring the water level of the water tank unit, and controlling the water supply pipe according to the water level of the water tank unit measured by the water level control measuring unit. ;, wherein the water level control unit may allow constant to be moved to the water tank unit through the water supply pipe when the water level of the water tank unit measured by the water level control measuring unit is lower than a preset water level.

The discharge part of the air purifying system using electrostatic spray according to an embodiment of the present invention communicates with the discharge hole and is mounted on the discharge space part and the discharge space part forming a certain space communicating with the upper space. A discharge filter unit is provided so that the bet in the upper space is filtered and discharged to the outside, and the discharge filter unit is disposed adjacent to the demister unit to remove moisture in the bet and the demister unit, and irradiates the bet with ultraviolet rays. It may include an ultraviolet ray irradiation unit disposed adjacent to the ultraviolet ray irradiation unit, a carbon activating unit configured to remove ozone, and a direction unit disposed adjacent to the carbon activating unit and supplying a fragrant substance to a beetle.

According to the present invention, carbon dioxide/fine dust/total floating bacteria/total volatile organic compounds can be simultaneously reduced with a single product (air purification system).

In addition, there is no separate filter for dust collection, so the pressure loss of the system is low and the generation of noise is low.

In addition, ozone due to oxidation of oxygen is dissolved by the sprayed water, so the amount of gaseous ozone generated is small.

In addition, it is possible to reduce maintenance costs such as HEPA (or medium) filter replacement and chemicals compared to existing systems.

1 is a schematic perspective view showing an air purification system using electrostatic spray according to an embodiment of the present invention.
Figure 2 is a schematic side perspective view showing an air purification system using electrostatic spray according to an embodiment of the present invention.
Figure 3 is a schematic front perspective view showing an air purification system using electrostatic spray according to an embodiment of the present invention.
Figure 4 is a schematic rear perspective view showing an air purification system using electrostatic spray according to an embodiment of the present invention.
5 is a block diagram for explaining a control unit of an air purifying system using electrostatic spray according to an embodiment of the present invention.
6 is a schematic diagram for explaining a spray nozzle part of an air purifying system using electrostatic spray according to an embodiment of the present invention.
7 is a schematic view illustrating a discharge filter unit of an air purifying system using electrostatic spray according to an embodiment of the present invention.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. However, the spirit of the present invention is not limited to the presented embodiments, and those skilled in the art who understand the spirit of the present invention may add, change, delete, etc. other elements within the scope of the same spirit, through other degenerative inventions or the present invention. Other embodiments included within the scope of the inventive idea can be easily proposed, but it will also be said to be included within the scope of the inventive concept.

In addition, components having the same function within the scope of the same idea appearing in the drawings of each embodiment are described using the same reference numerals.

1 is a schematic perspective view showing an air purifying system using electrostatic spray according to an embodiment of the present invention, and FIG. 2 is a schematic side perspective view showing an air purifying system using electrostatic spray according to an embodiment of the present invention. .

3 is a schematic front perspective view showing an air purifying system using electrostatic spray according to an embodiment of the present invention, and FIG. 4 is a schematic view showing an air purifying system using electrostatic spray according to an embodiment of the present invention. It is a rear perspective view.

And, Figure 5 is a block diagram for explaining the control unit of the air purification system using electrostatic spray according to an embodiment of the present invention.

1 to 5, an air purifying system using electrostatic spraying according to an embodiment of the present invention (hereinafter referred to as an air purifying system 1) removes pollutants in the inhaled air through liquid droplets sprayed through electrostatic spraying. It is an air purification system (1) using electrostatic spray that removes and discharges purified air from which contaminants are removed.

The air purifying system 1 of the present invention may include a case part 10, a suction part 20, a discharge part 30, an electrostatic spraying part 40, and a water supply part 50.

The case unit 10 may have a storage space formed therein, and a compartment 11 dividing the storage space into an upper space and a lower space, and on the front side, the user inputs settings to be described later, , a display panel P that can be checked can be formed.

The suction part 20 communicates with a suction hole formed in the front of the case part 10, and can suck outside air into the accommodation space by an applied power source.

The discharge part 30 is formed in the front of the case part 10 and communicates with the discharge hole disposed on the upper side of the suction hole to provide a passage through which bets in the accommodation space are discharged to the outside.

The electrostatic spray unit 40 is disposed in an upper space of the accommodating space, and may generate electrostatic spray by applied power.

The electrostatic spraying unit 40 is a component that collects fine dust with high efficiency by directly/indirectly colliding with and adsorbing the fine droplets with high charge to the surrounding fine dust.

Here, hydroxyl ions (OH-) are spontaneously generated on the surface of fine droplets between 1 and 20 μm. Due to the high electric field strength, the hydroxyl ion is converted into a hydroxyl radical and at the same time two hydroxyl radicals are combined to form hydrogen peroxide. is created

In addition, micro droplets can remove bacteria and volatile organic compounds in indoor air through an oxidation reaction by directly dissolving ozone generated by corona discharge.

Furthermore, ultra-fine dust can be charged and collected by the Brownian motion of very small fine droplets.

The electrostatic spray unit 40 of the present invention can reduce carbon dioxide (CO2) / fine dust / airborne bacteria / VOC at the same time by using only water without a separate filter for contaminants.

The water supply unit 50 is disposed below the case unit 10 and supplies water used in the electrostatic spray unit 40, and the mist generated by the electrostatic spray unit 40 falls A circulation path through which the collected water is supplied to the electrostatic spray unit 40 may be provided.

The water supply unit 50 may include a water tank unit 51, an electrostatic spray pipe 53, and a supply pump 55.

The water tank part 51 is formed on the lower side of the accommodating space, and is disposed on the lower side of the spray nozzle part 43 to be described later, so that the fine droplets sprayed by the spray nozzle part 43 lose weight or aggregate. It can be collected when dropped by .

The electrostatic spray pipe 53 is connected to the electrostatic spray unit 40 and may provide a passage through which water moves.

Specifically, the electrostatic spray pipe 53 provides a passage for water to flow from the water tank part 51 to the electrostatic spray part 40 located on the upper side of the water tank part 51, and the water tank part 51 ) may be increased by the supply pump 55 and supplied to the electrostatic spraying unit 40 .

Outside air introduced into the lower space through the suction part 20 may be discharged to the discharge part 30 through the upper space via the electrostatic spraying part 40 .

The electrostatic spraying unit 40 may include a voltage generating unit 41, a spraying nozzle unit 43, and a spraying cylinder unit 45.

The electrostatic spraying units 40a and 40b of the present invention are formed as a pair, and may include two voltage generating units 41a and 41b, spray nozzle units 43a and 43b, and two spray cylinder units.

The voltage generator 41 may generate a constant voltage with applied power.

In addition, the voltage generating unit 41 may apply a voltage so that the liquid droplets sprayed through the spray nozzle unit 43 have electrical properties.

The spray nozzle unit 43 may spray the water supplied from the electrostatic spray pipe 53 into mist-like fine droplets.

The spray nozzle unit 43 includes a main nozzle unit 431 connected to the electrostatic spray pipe 53 and a plurality of branch nozzle rods 433 diverging from the main nozzle unit 431 and arranged radially. can do.

The main nozzle part 431 has one side open to communicate with the electrostatic spray pipe 53 and the other side closed so that the received water can be sprayed to the plurality of branch nozzle rods 433 .

The main nozzle part 431 is formed in an upright rod shape, and the plurality of branch nozzle rods 433 are formed radially outside the main nozzle part 431 and may be disposed parallel to the ground. .

In addition, the main nozzle part 431 may be rotatably connected to the electrostatic spray pipe 53 . Technical features related to this will be dealt with in detail in the mode control unit 60 below.

The plurality of branch nozzle rods 433 are formed so that the size of the spraying inner diameter decreases from one side to the other side of the main nozzle part 431, according to the increase in water pressure in the longitudinal direction of the main nozzle part 431. Changes in the blowing force can be prevented.

Here, the other side of the main nozzle part 431 is closed and the pressure by the water introduced from one side acts the greatest, and accordingly, the lower side of the main nozzle part 431 among the plurality of branch nozzle rods 433 As the water pressure is increased, the spraying force may increase.

Therefore, according to the present invention, it is possible to minimize the change in the blowing force in the longitudinal direction of the main nozzle part 431 by varying the inner diameters of the plurality of branch nozzle rods 433.

Specifically, among the plurality of branch nozzle rods 433, the water on the main nozzle part 431 is uniformly sprayed by reducing the spraying inner diameter as it is disposed on the lower side of the main nozzle part 431.

If the plurality of branch nozzle rods 433 have the same spray inner diameter, the spray force of the branch nozzle rod 433 on the lower side is relatively increased due to the water pressure that increases toward the lower side of the main nozzle unit 431, A uniform fine droplet distribution within the portion 45 may be hindered.

In order to solve this problem, the divergent nozzle rod 433 of the present invention enables uniform distribution of fine droplets in the spray cylinder part 45 by making the spray inner diameter different according to the working water pressure.

The spray cylinder part 45 may provide an air flow path from the lower space to the upper space while surrounding the spray nozzle part 43.

The spray cylinder part 45 is formed in a cylindrical shape with an open lower side, and provides a space where the fine liquid droplets sprayed by the spray nozzle part 43 stay and at the same time provides a passage for the sucked air to go to the outlet. do.

The supply pump 55 may supply water accommodated in the water tank 51 to the electrostatic spray pipe 53 while being formed between the water tank 51 and the electrostatic spray pipe 53 .

In addition, the water supply unit 50 may further include an air purge tank unit 52, a water filter unit 54, a water supply pipe 56, a water level adjustment and measurement unit 57, and a water level control unit 70. .

The air purge tank unit 52 may remove air generated in the water tank unit 51 .

The water filter unit 54 can remove foreign substances from the water contained in the water tank unit 51 and sterilize it.

The water supply pipe 56 provides a path through which constant water can be supplied from the outside.

The water level control measuring unit 57 may measure the water level of the water tank unit 51 .

The water level controller 70 may control the water supply pipe 56 and the drain pipe 58 according to the water level of the water tank 51 measured by the water level control measuring unit 57 .

Specifically, the water level control unit 70, when the water level of the water tank unit 51 measured by the water level control measuring unit 57 is lower than the predetermined water level, the constant is the water level through the water supply pipe 56 It can be moved to the jaw part 51.

In addition, the water level control unit 70, when the water level of the water tank unit 51 measured by the water level control measuring unit 57 is higher than the preset water level, the water in the water tank unit 51 is transferred to the drain pipe ( 58) to be discharged to the outside of the water tank unit 51.

Meanwhile, the air purifying system 1 of the present invention may further include a mode controller 60.

The mode controller 60 may control the suction unit 20 and the voltage generator 41 according to a period set by a user.

The mode control unit 60 may implement a purification mode for purifying the bet moved through the suction part 20 and a washing mode for cleaning the inner circumferential surface of the spray cylinder part 45 .

The purification mode may be a mode in which outside air is sucked into the accommodation space through the suction part 20 and the sucked air is purified by the system of the present invention and discharged to the outside.

At this time, the purification mode may be automatically implemented according to the degree of contamination of the external air. To this end, a contamination degree measuring unit may be further included to measure the degree of contamination of the external air while being installed outside the case unit 10 .

The mode control unit 60 may turn on/off the purification mode according to the value measured by the contamination degree measurement unit.

In the case of the purification mode, the mode control unit 60 may drive the suction unit 20 , drive the voltage generator 41 , and drive the spray nozzle unit 43 .

The washing mode may be implemented for washing the spray cylinder part 45 or the spray nozzle part 43 according to a predetermined cycle.

In the case of the washing mode, the mode control unit 60 may stop driving the suction unit 20 , stop driving the voltage generating unit 41 , and operate the spray nozzle unit 43 .

Specifically, the mode control unit 60, in the case of the washing mode, the spray nozzle unit 43 is driven to wash the spray cylinder unit 45 or the spray nozzle unit 43 by fine droplets, The main nozzle unit 431 may be rotated based on the electrostatic spray pipe 53.

As the main nozzle part 431 rotates from the electrostatic spray pipe 53, the inner surface of the spray cylinder part 45 can be easily cleaned by various types of water streams.

Here, in the case of the washing mode, the mode control unit 60 may adjust the water pressure by the supply pump 55 so that water is supplied to the spray nozzle part 43 at a higher water pressure than in the purification mode. .

6 is a schematic diagram illustrating a spray nozzle part of an air purifying system using electrostatic spray according to an embodiment of the present invention.

Referring to FIG. 6, the plurality of branched nozzle rods 433 according to an embodiment of the present invention include a first nozzle rod 433a formed with a first inner diameter and a second inner diameter smaller than the first inner diameter. It may be composed of two nozzle rods 433b, a third nozzle rod 433c formed with a third inner diameter smaller than the second inner diameter, and a fourth nozzle rod 433d formed with a fourth inner diameter smaller than the third inner diameter.

The main nozzle part 431 includes a first section L1 in which the first nozzle rod 433a and the second nozzle rod 433b are alternately disposed, the third nozzle rod 433c, and the second nozzle rod 433c. It may be composed of a second section L2 in which 4 nozzle rods 433d are alternately disposed.

The first nozzle rod 433a and the second nozzle rod 433b are alternately separated from each other by a predetermined distance in the first section L1 from the upper side to the lower side of the main nozzle unit 431. can be placed.

The third nozzle rod 433c and the fourth nozzle rod 433d may be alternately disposed apart from each other by a predetermined distance in the second section L2 on the lower side of the first section L1. .

As described above, the plurality of nozzle rods are formed such that the size of the injection inner diameter decreases as they are disposed on the lower side of the main nozzle part 431. At this time, it is divided into the first section L1 and the second section L2. When the nozzle rods were formed alternately, the most ideal spray form was obtained.

The first nozzle rod 433a has an inner diameter of 0.66 to 0.70 mm, preferably 0.68 mm.

The second nozzle rod 433b has an inner diameter of 0.49 to 0.53 mm, preferably 0.51 mm.

The third nozzle rod 433c has an inner diameter of 0.30 to 0.34 mm, preferably 0.32 mm.

The fourth nozzle rod 433d has an inner diameter of 0.26 to 0.29 mm, preferably 0.28 mm.

The first nozzle rod 433a and the second nozzle rod 433b are alternately disposed three times, and the third nozzle rod 433c and the fourth nozzle rod 433d are alternately disposed two times. can be placed as

7 is a schematic diagram illustrating a discharge filter unit of an air purifying system using electrostatic spray according to an embodiment of the present invention.

Referring to FIG. 7 , the discharge unit 30 of the air purifying system 1 according to an embodiment of the present invention may include a discharge space unit 31 and a discharge filter unit 33 .

The discharge space part 31 communicates with the discharge hole and may form a certain space that communicates with the upper space.

The discharge filter unit 33 is mounted on the discharge space unit 31 so that the inside of the upper space is filtered and discharged to the outside.

The emission filter unit 33 may include a demister unit 331, an ultraviolet irradiation unit 333, a carbon activating unit 335, and a direction unit 337.

The demister unit 331 may remove moisture in the bet.

The ultraviolet irradiation unit 333 is disposed adjacent to the demister unit 331 and may irradiate ultraviolet rays to the interior.

The carbon activator 335 is disposed adjacent to the ultraviolet irradiation unit 333 and can remove ozone.

The direction unit 337 is disposed adjacent to the carbon activating unit 335 and may supply aromatic substances to bet.

In the above, the configuration and characteristics of the present invention have been described based on the embodiments according to the present invention, but the present invention is not limited thereto, and various changes or modifications can be made within the spirit and scope of the present invention. It is apparent to those skilled in the art, and therefore such changes or modifications are intended to fall within the scope of the appended claims.

1: Air purification system using electrostatic spray
10: case part
20: inlet
30: discharge unit
40: electrostatic spraying unit
41: voltage generating unit
43: spray nozzle unit
45: atomizing cylinder
50: water supply unit
51: water tank
53: electrostatic spray pipe
55: supply pump
60: mode control unit
70: water level control unit

Claims (11)

An air purifying system using electrostatic spray that removes pollutants in the inhaled air through liquid droplets sprayed through electrostatic spray and discharges purified air from which the pollutants are removed,
A case portion forming an accommodation space therein;
a suction unit that communicates with a suction hole formed in the front of the case unit and sucks outside air into the receiving space by an applied power source;
a discharge unit formed in front of the case unit and communicating with a discharge hole disposed on an upper side of the suction hole to provide a passage through which bets in the accommodation space are discharged to the outside;
an electrostatic spray unit disposed in the accommodation space and generating electrostatic spray by applied power; and
Disposed below the case unit, supplying water used in the electrostatic spraying unit, providing a circulation path through which the mist generated by the electrostatic spraying unit falls and is collected, and the collected water is supplied to the electrostatic spraying unit. Including; a water supply unit to
The case part,
A partitioning portion dividing the accommodating space into an upper space and a lower space,
The electrostatic spray unit is located in the upper space,
Outside air introduced into the lower space through the suction part is discharged to the discharge part through the upper space via the electrostatic spraying part,
The water supply unit,
A water tank portion formed on the lower side of the accommodation space;
An electrostatic spray pipe connected to the electrostatic spray unit and providing a passage through which water moves; and
a supply pump formed between the water tank unit and the electrostatic spray pipe and supplying water accommodated in the water tank unit to the electrostatic spray pipe;
The electrostatic spray unit,
A voltage generator generating a constant voltage with applied power;
A spray nozzle unit for spraying the water supplied from the electrostatic spray pipe into fine droplets in the form of mist; and
A spraying cylinder for providing an air flow path from the lower space to the upper space while surrounding the spray nozzle,
The voltage generator,
Applying a voltage so that the droplet sprayed through the spray nozzle has electrical properties,
The spray nozzle part,
A main nozzle part connected to the electrostatic spray pipe and
Equipped with a plurality of branch nozzle rods branched from the main nozzle part and arranged radially;
The main nozzle part,
One side is open and communicates with the electrostatic spray pipe, and the other side is closed so that the received water is sprayed to the plurality of branch nozzle rods,
The plurality of branch nozzle rods,
It is formed such that the size of the spraying inner diameter decreases from one side of the main nozzle part to the other side, preventing a change in blowing force due to a rise in water pressure in the longitudinal direction of the main nozzle part,
The plurality of branch nozzle rods,
A first nozzle rod formed with a first inner diameter, a second nozzle rod formed with a second inner diameter smaller than the first inner diameter, a third nozzle rod formed with a third inner diameter smaller than the second inner diameter, and a fourth smaller than the third inner diameter Consisting of a fourth nozzle rod formed with an inner diameter,
The main nozzle part,
It consists of a first section in which the first nozzle rod and the second nozzle rod are alternately arranged and a second section in which the third nozzle rod and the fourth nozzle rod are alternately arranged,
The first nozzle rod and the second nozzle rod,
In the first section from the upper side of the main nozzle part to the lower side, they are alternately arranged at a predetermined distance apart,
The third nozzle rod and the fourth nozzle rod,
An air purifying system using electrostatic spray, characterized in that alternately arranged at a predetermined distance apart from each other in the second section below the first section.
delete delete delete According to claim 1,
The first nozzle rod,
The injection inner diameter is 0.66 to 0.70 mm,
The second nozzle rod,
The injection inner diameter is 0.49 to 0.53 mm,
The third nozzle rod,
The injection inner diameter is 0.30 to 0.34 mm,
The fourth nozzle rod,
An air purifying system using electrostatic spray, characterized in that the spray inner diameter is 0.26 to 0.29 mm.
According to claim 1,
The first nozzle rod and the second nozzle rod are alternately arranged three times,
The air purifying system using electrostatic spray, characterized in that the third nozzle rod and the fourth nozzle rod are alternately arranged twice.
According to claim 1,
A mode control unit controlling the suction unit and the voltage generator according to a period set by a user; includes,
The mode control unit,
Implementing a purification mode for purifying the bet moved through the suction part and a washing mode for cleaning the inner circumferential surface of the spray cylinder,
An air purifying system using electrostatic spray, characterized in that the washing mode is implemented according to a preset cycle.
According to claim 7,
The mode control unit,
In the case of the purification mode, the suction part is driven, the voltage generator is driven, and the spray nozzle is driven,
In the case of the washing mode, the air purifying system using electrostatic spray characterized in that the driving of the inlet is stopped, the driving of the voltage generator is stopped, and the spray nozzle is driven.
According to claim 8,
The main nozzle part,
It is rotatably connected to the electrostatic spray pipe,
The mode control unit,
In the case of the washing mode, the air purifying system using electrostatic spraying characterized in that the main nozzle part is rotated based on the electrostatic spray pipe.
According to claim 1,
The water supply unit,
An air purge tank unit for removing air generated in the water tank unit;
An underwater filter unit for removing and sterilizing foreign substances from the water accommodated in the water tank unit;
Water supply piping receiving constant water from the outside and
It has a water level control measuring unit for measuring the water level of the water tank,
A water level control unit controlling the water supply pipe according to the water level of the water tank unit measured by the water level control measuring unit; further comprising,
The water level control unit,
An air purification system using electrostatic spray, characterized in that when the water level of the water tank measured by the water level control measuring unit is lower than the predetermined water level, the constant is moved to the water tank through the water supply pipe.
According to claim 1,
The discharge part,
A discharge space communicating with the discharge hole and forming a certain space communicating with the upper space; and
A discharge filter unit mounted on the discharge space portion to discharge the bet in the upper space to the outside while being filtered;
The discharge filter unit,
A demister unit that removes moisture in the bet;
An ultraviolet irradiation unit disposed adjacent to the demister unit and irradiating ultraviolet rays to the bet;
A carbon activator disposed adjacent to the ultraviolet irradiation unit and removing ozone; and
An air purifying system using electrostatic spray, characterized in that it includes a direction unit disposed adjacent to the carbon activator and supplying a fragrance material to the beetle.

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