KR102030414B1 - wet type Air cleaner - Google Patents

Abstract

The present invention relates to a wet type air cleaner. The wet type air cleaner includes: a main body housing having a space unit capable of accommodating water inside and having an inlet in the lower part and an outlet in the upper part, wherein polluted air flows into the inlet and purified air is discharged from the outlet; an air supply line connected to the inlet and compulsorily drawing the polluted air of the outside into the main body housing by having an air pump; multiple mesh brackets installed to be vertically spaced in the main body housing; an impeller unit installed in the main body housing and rotating the water stored in the main body housing; and an ultrasonic unit installed in the main body housing and generating ultrasonic waves. According to the present invention, the wet type air cleaner extends contact time of the water and air by connecting the mesh bracket having multiple fine pores for the air to pass through the upper part and lower part in the main body housing. The wet type air cleaner also increases the contact area and enables fine dust in the air to be adsorbed by the water. Therefore, the wet type air cleaner has high purification efficiency.

Description

Wet type air cleaner

The present invention relates to a wet air cleaning device, and more particularly, to a wet air cleaning device for purifying the air by contacting the air to the water to remove contaminants such as fine dust in the air.

In general, an air purifier is a device for filtering indoor air through a cleaning medium to filter contaminants or fine dust in contaminated air and to discharge clean air to the room.

These air cleaners are largely divided into dry and wet.

Dry air cleaners are divided into electrostatic precipitating and filter filtration. Electrostatic precipitating uses a filter that collects contaminants such as dust. There is this.

In addition, a wet air purifier sucks air into the air purifier and sprays water into the air purifier to remove contaminants in the air. The water and air cannot be sufficiently contacted to purify the air. There was a problem not to lose.

(Patent Document 1) Korea, Registered Patent Publication, Registration No. 10-1363326

The present invention has been made to solve this problem, by providing an air cleaning device in which water is stored therein, wet air in which fine dust is collected in the water while the outside air containing contaminants passes through the air cleaning device to purify the air. It is to provide a clean device.

The present invention relates to a wet air cleaning device, wherein the wet air cleaning device is provided with a space for accommodating water therein, the lower side is formed with an inlet through which contaminated air is introduced, and the upper side discharges the purified air. A main body housing having a discharge port formed therein, an air supply line connected to the inlet port, forcibly introducing external polluted air into the main body housing, and a plurality of spaced apart vertically in the main body housing; A mesh bracket installed in the main body housing, an impeller unit rotating the water stored in the main body housing, and an ultrasonic unit installed in the main body housing and generating ultrasonic waves, The support plate is coupled to the upper surface, the support plates are arranged in a zigzag with each other, the lower body Flows into the internal gong is characterized in that for guiding the path of movement of the air lift.

In addition, the air supply line is in communication with the inlet, the air supply pipe which is a passage through which external air is introduced into the main body housing, the air pump installed in the air supply pipe, and is coupled to the end of the air supply pipe, It is installed on the inner bottom surface of the main body housing, and includes a support member formed with a plurality of through-holes on the upper surface, the air pump is characterized in that installed in a position higher than the water level in the main body housing.

In addition, the horizontal cross section of the support member is formed in a circular shape, the rotary blade is coupled to the inside of the support member, the support member is eccentrically coupled to the air supply pipe, by the air introduced through the air supply pipe Rotating blades are characterized in that the rotation.

The present invention combines a mesh bracket formed with a plurality of fine pores to penetrate the upper and lower inside the body housing to extend the contact time of water and air, increase the contact area to adsorb fine dust in the air to the water purification efficiency There is a high noticeable effect.

In addition, the present invention by using ultrasonic waves, the fine dust in the air passing through the inside of the main body housing by vibrating the water to be in contact with the water within a short time not only high purification efficiency, but also prevents the fine dust remaining on the mesh bracket This makes it easy to manage.

In addition, the present invention has a remarkable effect of guiding a path through which air is moved by using a support plate so that the air stays in the water for a long time to be sufficiently purified.

In addition, the present invention is easy to increase the size of the medium, there is an effect that can be utilized in industrial.

1 is a conceptual diagram of a wet air cleaning device of the present invention.
2 is a plan view of a support member according to the present invention.
3 is a plan sectional view of a supporting member according to the present invention.
4 is a view showing another embodiment of a wet air cleaning device of the present invention.
5 is a view of a generator mounted on the wet air cleaning device of the present invention.

Hereinafter, the technical spirit of the present invention will be described in more detail with reference to the accompanying drawings.

The accompanying drawings are only examples to explain the technical idea of the present invention in more detail, and thus the technical idea of the present invention is not limited to the accompanying drawings.

1 is a conceptual diagram of a wet air cleaning device of the present invention.

As shown in FIG. 1, the wet air cleaning apparatus of the present invention includes a main body housing 100, an air supply line 200, a mesh bracket 300, an impeller unit 400, an ultrasonic unit 500, and a controller (drawings). Not shown).

The body housing 100 is a container in which a space part for accommodating water and air is formed therein.

The main body housing 100 is for forming an outer shape, and may be formed in various shapes such as a cylinder or a square pillar shape.

The main body housing 100 is formed with an inlet port 110 through which external polluted air is introduced, and an outlet port 120 through which the purified air is discharged from the main body housing 100, and the inlet port 110 is formed. It is formed on the outer periphery of the main body housing 100, the outlet 120 is formed on the outer periphery of the main body housing 100.

In addition, the main body housing 100 is provided with a water supply port 130 for receiving water from the outside, and a drain hole 140 through which contaminated water is discharged from the inside of the main body housing 100.

The water supply port 130 is connected to the water supply line, the water supply line is connected to the water tank 134, the water supply line is equipped with a flow control valve 132, the body housing 100 inside It is desirable to adjust the flow rate according to the water level.

In addition, it is preferable that the drain valve 140 is also equipped with an opening / closing valve 142 and opened and closed according to the degree of pollution of the water stored in the main body housing 100 to manage water quality.

The air supply line 200 serves to forcibly introduce external polluted air into the body housing 100.

The air supply line 200 includes an air supply pipe 210, an air pump 220, and a support member 230.

The air supply pipe 210 is a passage through which external air flows into the inlet 110.

The air supply pipe 210 is connected to the connection pipe 212 horizontally connected to the inlet 110, the vertical pipe 214 is connected to the connection pipe 212, and installed to have a height in the vertical direction, Is connected orthogonally to the vertical pipe 214, the air pump 220 is installed, one side is open and includes a horizontal pipe 216 is formed with an air inlet through which air is introduced.

The height of the vertical pipe 214 is provided higher than the height of the water stored in the body housing 100, so that the water stored in the body housing 100 does not flow back to the air pump 220.

The air pump 220 is installed in the air supply pipe 210 to forcibly suck external polluted air, so that the outside air is introduced into the main body housing 100 in a large amount.

And the air pump 200 is installed higher than the height of the water stored in the main body housing 100, to facilitate the injection of air into the main body housing 100.

In addition, the air supply pipe 210 is inserted into the main body housing 100 is formed to extend, the support member 230 which will be described later is coupled to the end of the air supply pipe 210.

The bottom surface of the support member 230 is coupled to the inner bottom surface of the body housing 100, whereby the air supply pipe 210 is stably supported.

As shown in FIG. 2, the support member 230 has a disc shape having a space formed therein, and a plurality of through holes 232 are formed on an upper surface thereof.

In other words, the air introduced from the outside through the air supply line 200 is injected into the main body housing 100 through the through hole 232.

And, as shown in Figure 3, as an embodiment of the support member 230, the support member 230 is eccentrically coupled with the connection pipe 212, the inside of the support member 230 is a rotary blade ( 234 are combined.

As the support member 230 is eccentrically coupled with the connection pipe 212, the water introduced into the support member 230 has a centrifugal force, and thus the rotary blade 234 is rotated at a higher speed. .

In addition, the rotary blade 234 is formed to have a curvature along the rotation direction, so that it can be efficiently rotated.

That is, the rotary blade 234 is rotated by the air flowing through the connecting pipe 212, and thus the air is evenly supplied through the plurality of through-holes 232 formed in the support member 230 body housing ( 100) It is injected inside.

As the rotary blade 234 is rotated in the support member 230, the air, the through hole 232 formed in a position close to the connecting pipe 212 and the through hole 232 formed in a relatively distant position Since it is smoothly distributed and discharged, air is not concentrated in one place, and there is an effect of being spread and introduced into a wide range.

On the other hand, as an embodiment of the air supply line 200, the generator 600 may be coupled to the air supply line.

 The generator is installed on the vertical pipe 214 of the air supply line, and converts the kinetic energy into electrical energy by using the pressure of air introduced into the water stored in the vertical pipe to generate power. .

That is, the generator produces power by driving the rotating body by using the pressure of the air passing through the vertical pipe 214, the drive motor 410 to be described later is driven by the power produced by the generator. .

In addition, the generator couples a separate bypass to the vertical pipe 214, it may be installed on the pipe path.

Next, the mesh bracket 300 has a plurality of fine pores are formed to penetrate up and down, to extend the contact time of water and air, and to increase the contact area to adsorb fine dust in the air to the water.

In addition, it also serves to filter contaminants in the air introduced into the body housing 100 through the inlet 110.

The mesh brackets 300 are provided in plural numbers, and the plurality of mesh brackets 300 are disposed to be spaced apart at regular intervals up and down.

 In more detail, the mesh bracket 300 of the present invention includes a first mesh bracket installed at a lower side of the inside of the main body housing 100 and a second mesh bracket installed at a predetermined interval on an upper portion of the first mesh bracket. Include.

A plurality of voids are formed in the first mesh bracket and the second mesh bracket, and the first mesh bracket serves as a filter for primarily filtering contaminants in air, and the second mesh bracket is secondly filtered. Acts as a filter.

In addition, a plate-like support plate 310 is coupled to the upper surface of the mesh bracket 300.

The support plate 310 serves to guide the movement path of the air that is introduced into the main body housing 100 through the inlet port 110 to move up and down.

In addition, one end of the support plate 300 is fixed to the inner wall of the main body housing 100, the lower portion of the support plate 300 is coupled to the mesh bracket 310, the support plate 300 is the mesh The bracket 300 serves to stably fix the inside of the main body housing 100.

In addition, the support plate 310 is composed of at least two or more, the plurality of support plates 310 are installed in a plurality of spaced apart up and down, are arranged in a zigzag with each other, to guide the movement path of air It is.

In more detail, the support plate 310 is horizontally coupled to the bottom surface of the main body housing 100, and is formed to have a cross-sectional area smaller than the horizontal cross section of the main body housing to provide a passage through which air can pass.

For example, assuming that two support plates 310 are installed inside the main body housing 100, when one support plate is coupled to the right side of the main housing, the other support plate is located on the left side of the main housing. Combined, the air to be moved from the lower part of the main body housing to the upper part of the main body housing to be purified for a long time to stay inside the main body housing.

In other words, the support plate serves as a partition wall for dividing the internal space of the main body housing, and provides an air passage by making the area of the support plate smaller than the main body housing. In the same manner as the housing, a hole may be formed in the support plate to provide an air passage.

That is, in the present invention, by using the support plate 310, by narrowing the area of the moving passage through which the air is moved, the air stays in the water for a long time to be in sufficient contact with the water.

In the present invention, the support plate 310 is provided in the same manner as the number of the mesh bracket 300, but this can be changed according to the needs of the user, which is not limited to the present invention.

In addition, in the present invention, two mesh brackets 300 and support plates 310 are installed in the main body housing 100, but the number of the mesh brackets and the support plates may be adjusted according to a user's needs. It is not limited to the present invention.

The impeller portion 400 rotates the water stored in the main body housing 100 so that the water is dispersed into fine particles, so that contaminants contained in the air can be more easily removed.

The impeller 400 includes a drive motor 410 installed on the outer circumference of the main body housing 100, and an impeller 420 connected to the drive motor and rotated by a driving force of the drive motor.

Since the impeller 420 is installed on the inner side of the main body housing 100 and rotates, the impeller 420 is vortexed in the water stored in the main body housing 100, and the impeller is always in a submerged state.

In particular, since it is coupled to the side of the main body housing 100 and rotates, it generates an irregular turbulence, there is an effect to clean the air more efficiently.

The ultrasonic unit 500 includes an ultrasonic vibrator, which is an element that vibrates water by generating ultrasonic waves.

The ultrasonic unit 500 is installed to be fixed in the height direction in the main body housing 100 in a long way, is arranged to be submerged in water, by generating ultrasonic waves in the water, contaminants such as fine dust in the air more easily water To be adsorbed.

Ultrasonic unit 500 of the present invention is formed in a rod type, is installed in the vertical direction in the center of the body housing 100, the vibration efficiency is high, and generates ultrasonic waves in a larger area, accordingly a large amount of water By vibrating, the air purification efficiency is improved.

As a result, contaminants such as dust or foreign substances that are heavier than air fall into the water, and the purified air rises above the surface of the water.

That is, the ultrasonic unit 500 is to atomize the water, so that the fine dust in the air passing through the inside of the main body housing 100 is in contact with the water within a short time to purify the air.

In addition, the ultrasonic unit 500, by vibrating the water, to prevent the fine dust is attached or remaining on the mesh bracket 300, there is an effect to facilitate the management of the wet air cleaner of the present invention.

The ultrasonic unit 500 is fixedly installed in a vertical direction to the inner center of the main body housing 100 by the fixing member 510.

The controller (not shown) serves to control the components of the apparatus of the present invention.

In particular, the control unit detects the signals of the sensors provided in the apparatus of the present invention, and controls the respective components accordingly.

In the present invention, a pollution detection sensor is mounted on the inner wall of the main body housing 100, and the pollution detection sensor detects this when the water inside the main body housing has a pollution degree or more, and transmits it to the controller.

Accordingly, the controller opens the on / off valve 142 mounted on the drain 140 to discharge the water inside the body housing 100.

In addition, a water level sensor is mounted on the inner wall of the main body housing 100, and the water level sensor detects the water level when the water level inside the main body housing is lower than a set value, and transmits it to the control unit. Open the flow control valve 132 mounted on the 130 to allow the water to be supplied into the body housing (100).

In addition, the controller may adjust the rotational speed of the impeller or the like as the incoming air is contaminated.

As described above, the present invention has been described with reference to the embodiments shown in the drawings, but it is only for the purpose of illustrating the invention, and those skilled in the art to which the present invention pertains various modifications or equivalents from the detailed description of the invention. It will be appreciated that one embodiment is possible.

Therefore, the true scope of the present invention should be determined by the technical spirit of the claims.

100: housing
110: Inlet
120: outlet
130: water supply port
132: flow control valve
134: water tank
140: drain
142: open and close valve
200: air supply line
210: air supply pipe
212 connector
214: Vertical pipe
216: horizontal pipe
220: Air pump
230: support member
232: through-hole
234: rotary wing
300: mesh bracket
310: support plate
400: impeller part
410: drive motor
420: Impeller
500: Ultrasonic unit
510: fixed member
600: generator

Claims (3)

A main body housing having a space for accommodating water therein, the lower side of which is formed with an inlet through which contaminated air is introduced, and an upper side with an outlet through which purified air is discharged;
An air supply line connected to an inlet of the main body housing and having an air pump installed to forcibly introduce external contaminated air into the main body housing;
Inside the main body housing, a plurality of mesh brackets are installed spaced apart up and down;
An impeller part installed on an inner side of the main body housing to allow the wing to be disposed in a vertical direction to rotate water stored in the main body housing;
Is installed inside the main body housing, the ultrasonic wave of the rod-type ultrasonic unit which is installed in the vertical direction in the center of the main body housing to vibrate the water by generating an ultrasonic wave;
A support plate is coupled to the upper surface of the mesh bracket, and the support plates are arranged in a zigzag manner to guide the movement path of the air that is introduced into the main housing and lifts.
The air supply line,
An air supply pipe communicating with the inlet port, the air supply pipe being a passage through which external air flows into the main body housing;
An air pump installed in the air supply pipe;
Is coupled to the end of the air supply pipe, is installed on the inner bottom surface of the body housing, including a support member formed with a plurality of through holes on the upper surface,
The air pump is installed at a position higher than the water level inside the main body housing,
The horizontal cross section of the support member is formed in a circular shape, the rotary blade is coupled to the inside of the support member, the support member is eccentrically coupled to the air supply pipe, the rotary blade by the air introduced through the air supply pipe Is rotated so that the air injected into the main body housing is smoothly distributed and discharged through the through hole formed at a position close to the air supply pipe and the through hole formed at a relatively distant position, so that the air is diffused to a large area and flows into the main body housing. Wet air cleaning device, characterized in that the. delete delete

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