KR102087561B1 - Air purifier - Google Patents

Abstract

The present invention relates to an air purifying apparatus, and more particularly, a first air discharge port is formed on a left side of a hollow inner body, and an air inlet is formed on a right side, and a tube having a spiral tube outer pin and a cathode member is formed on an outer circumferential surface thereof; A casing in which the tube is installed inside the hollow outer body and an intake port is formed at one side, and a first air discharge hole coupling hole is formed at the other side to pass through the first air discharge port, and a spiral casing pin and an anode member are formed at an inner circumferential surface thereof; A blowing fan installed in the first air discharge port coupling hole or the intake port of the casing to discharge air from the first air discharge port or introduce air into the intake port; And a discharge device in which noxious components are ionized by charging between the positive electrode member and the negative electrode member,
The air flowing through the inlet port is rotated along the air passage between the outer pin of the tube and the casing pin to push heavy harmful substances to the outside of the tube (inner casing surface), and at the same time, the anode member with an ultra high voltage of DC 3kV ~ 20kV. It is to maximize the air purification efficiency by charging the negative electrode member and ionizing the harmful substances pushed out to attach the harmful particles to the positive electrode member on the inner surface of the casing.

Description

Air Purifier {AIR PURIFIER}

The present invention relates to an air purifying apparatus, and more particularly, by rotating the air introduced through the inlet port, the heavy harmful substances contained in the air are pushed out of the tube (side of the positive electrode member) by centrifugal force and at the same time DC. The present invention relates to an air purifier for maximizing air purification by attaching ionized harmful particles to an anode member by charging an ultra high voltage of 3kV to 20kV.

In general, an air purifier is used to purify air in a limited space by removing impurities in the air such as dust, and a conventional air purifier employs a dry air purifier such as a filter or an electrostatic precipitator.

In the case of the filter type, the air is sucked in by using a blower, and a method of filtering dust in the air by using a filter, or the air resistance increases as dust is deposited, thereby reducing the efficiency of purification.

In the case of the electrostatic precipitating method, dust or the like in the air is attached to the electrode of the dust collecting part while passing through the ionized space, or there is a problem in that the air purification rate is low due to the high flow rate of the air and the dust is reduced.

In order to solve the above-mentioned problem, a wet air purification method using water has been known in recent years, and a water supply pipe part formed in a zigzag shape on the front side of the water filter, inside the water filter and between the water filter and the water removal filter, is formed. A technique is known in which a water film is formed by spraying water on a string through a spray nozzle provided at a part, and air is passed through the water film to remove dust from the air passing through the water film through the water film to purify the air. However, the wet air purifier of such a configuration has the advantage of preventing the decrease in air purification efficiency because the air resistance does not increase because water is continuously supplied and contaminants such as dust do not accumulate in the water film forming part. Air contains not only fine dust but also various chemicals, and it is highly soluble in water. Chemical substances, such as ammonia or sulfide oxides, can be easily removed through a wet air purifier, but chemicals that are not dissolved or adsorbed in water. For example, nitrogen oxides pass through a water film as it is. There is a problem that is discharged as it is not removed through.

Korean Unexamined Patent Publication No. 10-2005-0040935

The present invention is to solve the problems as described above, the object of the present invention is to rotate the air introduced through the inlet port to remove heavy harmful substances contained in the air by the centrifugal force to the outside of the tube (the positive electrode side) At the same time, it is intended to maximize air purification by charging the ultra-high voltage of DC 3kV ~ 20kV to attach the ionized harmful particles to the anode member.

In order to achieve the present invention, the present invention, the first air discharge port is formed on the left side of the hollow inner body and the air inlet is formed on the right side, the outer circumferential surface of the spiral tube-shaped pin and the negative electrode member tube; A casing in which the tube is installed inside the hollow outer body and an intake port is formed at one side, and a first air discharge hole coupling hole is formed at the other side to pass through the first air discharge port, and a spiral casing pin and an anode member are formed at an inner circumferential surface thereof; A blowing fan installed in the first air discharge port coupling hole or the intake port of the casing to discharge air from the first air discharge port or introduce air into the intake port; And a discharge device in which harmful components are ionized by charging between the positive electrode member and the negative electrode member.

In this case, the protrusion of the tube outer pin and the protrusion of the casing pin are spaced apart by a predetermined interval, characterized in that the spiral direction is formed to face each other in the same direction.
In addition, the inner peripheral surface of the tube is characterized in that the spiral inner tube formed pin.

In addition, the gap between the cathode member and the anode member is 0.5 ~ 5cm, characterized in that for generating an ultra-high voltage of 3kV ~ 20kV.

In addition, a first filter is further formed at the inlet of the casing, and a second filter is further formed between the first air discharge port and the blowing fan.

As described above, in the air purifying apparatus of the present invention, the first air outlet is formed on the left side, and the air inlet is formed on the right side, so that air introduced into the air inlet on the right side is discharged to the first air outlet on the left side, and the outer peripheral surface It includes a tube formed with a spiral tube outer pin and a cathode member; The tube is formed so as to be inserted into the inner side is formed in one side of the inlet port for the outside air is introduced and the first air discharge port coupling hole coupled to the first air discharge port of the tube is formed on the other side, the inner peripheral surface and the spiral casing pin A casing in which an anode member is formed; A blowing fan installed in the first air discharge port coupling hole or the inlet of the casing to discharge air from the first air outlet or to introduce air into the inlet; And a discharge device in which noxious components are ionized by charging between the positive electrode member and the negative electrode member, and the air introduced through the inlet port is rotated along the air passage between the outer pin of the tube and the casing pin. (Casting inner circumferential surface), and at the same time to charge the positive electrode member and the negative electrode member with an ultra-high voltage of DC 3kV ~ 20kV to ionize the harmful substances pushed out to allow harmful particles to adhere to the anode member of the inner surface of the casing air It is effective to maximize the purification efficiency.

In addition, by further adding a tube inner pin to the inner peripheral surface of the tube to sufficiently delay the residence time of the air passing from the air inlet to the first air outlet, thereby further maximizing the air purification efficiency for the air passing through the second filter. It works.

The protrusions of the tube outer fins and the protrusions of the casing pins are formed to be spaced apart at regular intervals so as to face each other in the same direction, thereby relieving the pressure formed between the left and right walls of the casing pins and the left and right walls of the tube outer fins. The effect of rotating the air along the spiral direction is increased, and the heavy harmful substances contained in the air are pushed out from the center of rotation by centrifugal force.

1 is a perspective view of an exploded state of the air purifying apparatus according to the present invention.
2 is a perspective view of the air purifier according to the present invention assembled.
3 is a cross-sectional view of the casing of the air purifying apparatus according to the present invention.
4 is a perspective view of a tube of the air purifier according to the present invention.
5 is a perspective view showing the inner and outer fins of the air purifier of the present invention.
6 is a cross-sectional view showing the air flow of the present invention air purifier.

The objects, features and advantages of the present invention described above will become more apparent from the following detailed description. Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

1 to 6 is a view showing an air purifying apparatus according to an embodiment of the present invention.

That is, as shown in Figure 6, the air purifying device of the present invention is the first air discharge port is formed on the left side of the hollow inner body and the air inlet is formed on the right side, the outer tube is a spiral-shaped tube outer pin and the cathode member Formed tube; A casing in which the tube is installed inside the hollow outer body and an intake port is formed at one side, and a first air discharge hole coupling hole is formed at the other side to pass through the first air discharge port, and a spiral casing pin and an anode member are formed at an inner circumferential surface thereof; A blowing fan (not shown) installed in the first air outlet coupling hole or the inlet of the casing to discharge air from the first air outlet or introduce air into the inlet; And a discharge device (not shown) in which harmful components are ionized by charging between the positive electrode member and the negative electrode member.

Here, the protrusions (not shown, corresponding to the threaded portion) of the tube outer fin 34 and the protrusions (not shown, corresponding to the threaded portion) of the casing pin 22 are spaced at regular intervals so that the spiral directions face each other in the same direction. Is formed, the inner circumferential surface of the tube 30 is further formed with a spiral inner tube pin (35).

The distance between the cathode member 31 and the anode member 21 is preferably 0.5 to 5 cm, and the generated voltage between both electrodes is preferably to generate an ultra high voltage of 3 kV to 20 kV.

In addition, a first filter (not shown) is further formed in the inlet 13 of the casing, and in this case, the first filter housing includes a first filter inlet 11 and a first filter seat 12. 10, the first filter housing 10 should be installed at the inlet of the inlet port 13 so that the air filtered through the first filter flows into the inlet port 13.

In addition, a second filter (not shown) is further formed between the first air discharge port 33 and a blowing fan (not shown), in which case the second filter has a second filter housing having a second filter seat 61 formed therein. It may be installed in the (60), the second filter housing 60 is integrally with the first air discharge port coupling hole so that the air discharged through the first air discharge port 33 can be filtered through the second filter. It should be coupled to the housing housing 25 formed.

Here, the blowing fan (not shown) may be installed inside the blowing fan housing 70 including the fifth air passage 71, the blowing fan seat 72, and the second air discharge port 73, and the blowing fan housing. The fifth air passage 71 of 70 and the fourth air passage 62 of the second filter housing 60 may be connected, in which case the second filter housing 60 is connected to the housing accommodating portion 25. Directly connected or connected to the air passage housing 50, the air passage housing 50 may be connected to the housing accommodating portion 25.

In addition, one side is coupled to the housing accommodating portion 25 and the other side is the blowing fan housing 70 is coupled, the first air passage 51, the second air passage 52 and the third air passage 53 is formed Air passage housing 50 is provided.

The second filter housing 60 and the air passage housing 50 are sequentially coupled to the upper portion of the blower fan housing 70, and the air passage housing 50 may be coupled to the housing accommodating portion 25. In this case, the air passage first air discharge port 33, the first air passage 51, the second air passage 52, the third air passage 53, the fourth air passage 62, the fifth air passage (71) ) And the second air discharge port 73.

And a lead member coupling hole 24 may be formed on the right side of the casing, in which case it is preferable that the air inlet of the tube is formed so as to be spaced in a predetermined interval inward from the lead member coupling hole 24, the lead member The lead member 40 coupled to the coupling hole is formed so that the right side is coupled and sealed to the lead member coupling hole, and an integrated through-hole 41 and an air inlet fitting member 42 are formed on the left side of the lead member 40. The air inlet fitting member 42 is formed to be fitted to the air inlet at the same time when fastening to the lead member coupling hole.

Hereinafter, a detailed functional relationship of the present invention will be described with reference to FIGS. 5 and 6.

That is, in the air purifying apparatus of the present invention, the first filtered air is introduced through the first filter and the intake port 13 formed at one side of the casing 20 by the intake action of the blower fan as the blower fan and the discharge device operate. , The introduced air is rotated along the air passage between the tube outer pin and the casing pin 22 to push heavy harmful substances to the outside (casing inner peripheral surface) of the tube, and at the same time the anode at an ultra high voltage of DC 3kV ~ 20kV Hazardous substances pushed out by charging the member and the cathode member are ionized, and harmful particles are attached to the anode member on the inner circumferential surface of the casing.

At this time, only the purified air (secondarily filtered air) enters the tube 30 through the air inlet. In this case, the purified air is rotated along the spiral inner tube pin formed on the inner circumferential surface of the tube and discharged to the first air discharge port 33.

Thereafter, the air discharged from the first air discharge port 33 passes through the first air passage 51, the second air passage 52, and the third air passage 53 of the air passage housing 50.

The air passing through the third air passage 53 passes through the second filter of the second filter housing 60 (thirdly filtered air), so that the fourth air passage 62, the fifth air passage 71 and It is discharged sequentially along the second air discharge port (73).

In addition, the protruding portion of the tube outer fin and the protruding portion of the casing pin are formed to be spaced apart by a predetermined distance so as to face each other in the same direction, and thus, between the left and right side walls 22a and 22b of the casing pin and the left and right side walls 34a of the outer tube fin. , 34b) to increase the effect of rotating the air in the spiral direction while relieving the pressure formed between it is an effect that the heavy harmful substances contained in the air by the centrifugal force is pushed out from the center of rotation.

The present invention relates to an air purifying apparatus, and more particularly, by rotating the air introduced through the inlet port, the heavy harmful substances contained in the air are pushed out of the tube (side of the positive electrode member) by centrifugal force and at the same time DC. The present invention relates to an air purifying apparatus that maximizes air purification by attaching harmful particles, which are ionized by charging of ultra high voltage of 3kV to 20kV, to the anode member.

10: first filter housing 11: first filter inlet
12: First filter seat 13: Intake port
20: outer body, casing 21: anode member
22: casing pin 23: the first air discharge coupling hole
24: Lead member coupling hole 25: Housing housing portion
30: inner body, tube 31: negative electrode member
32: air inlet 33: first air discharge outlet
34: Tube Outer Pin 35: Tube Inner Pin
40: lead member 41: through hole
42: air inlet fitting member 50: air passage housing
51: first air passage 52: second air passage
53: third air passage 60: second filter housing
61: second filter seat 62: fourth air passage
70: blower fan housing 71: fifth air passage
72: blower fan seat 73: the second air discharge outlet
22a: left wall of casing pin 22b: right wall of casing pin
34a: left wall of tube outer pin 34b: right wall of tube outer pin

Claims (5)

A first air discharge port is formed at the left side of the hollow inner body and an air inlet is formed at the right side, and a tube having a spiral tube outer pin and a cathode member formed on an outer circumferential surface thereof;
A casing in which the tube is installed inside the hollow outer body and an intake port is formed at one side, and a first air discharge hole coupling hole is formed at the other side to pass through the first air discharge port, and a spiral casing pin and an anode member are formed at an inner circumferential surface thereof;
A blowing fan installed in the first air discharge port coupling hole or the intake port of the casing to discharge air from the first air discharge port or introduce air into the intake port; And
It includes a discharge device in which noxious components are ionized by the charge between the positive electrode member and the negative electrode member,
The protrusion of the outer tube pin and the protrusion of the casing pin spaced apart a predetermined interval air conditioning apparatus characterized in that formed in the spiral direction facing each other in the same direction.
The method according to claim 1,
The inner circumferential surface of the tube air cleaning device, characterized in that the spiral inner tube formed pin.
The method according to claim 1 or 2,
An interval between the cathode member and the anode member is 0.5 ~ 5cm, air purifier, characterized in that for generating an ultra-high voltage of 3kV ~ 20kV.
The method according to claim 1 or 2,
An air purifier, characterized in that the first filter is further formed in the inlet port of the casing.
The method according to claim 1 or 2,
And a second filter is further formed between the first air discharge port and the blower fan.

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