KR20190011535A - Electric air filter and apparatus for furifying air using the same - Google Patents

Abstract

The present invention relates to an electrostatic air filter and an air purification apparatus using the same. The electrostatic air filter according to the present invention includes: a body unit having a plurality of pores on the outer surface thereof and divided into a first body and a second body and having a space formed by the first body and the second body; a plurality of spherical fillers having a uniform diameter to fill the space of the body unit; and a static electricity generating unit for applying static electricity to the body and the plurality of fillers from the outside of the body. According to various embodiments of the present invention, a filter structure capable of filtering dust particles of various sizes can be simplified.

Description

TECHNICAL FIELD [0001] The present invention relates to an electrostatic air filter and an air purifier using the same,

The present invention relates to an electrostatic air filter and an air purification apparatus using the same. More particularly, the present invention relates to an electrostatic air filter, and more particularly, And an air cleaning apparatus using the same.

Excessive use of fossil fuels is accelerating air pollution, and contaminated air can have a direct negative impact on the human body. Various attempts have been made to purify the indoor air in order to continue the daily activities even in the air pollution.

In recent years, fine dust or ultrafine dust is contained in the air, so that there is a problem that air purification is difficult in the conventional method. Particles smaller than 10 micrometers in diameter and larger than 2.5 micrometers are referred to as fine dust particles and are mainly generated in roadsides or industrial complexes. Particles with a diameter of less than 2.5 micrometers are called ultrafine dust, which is mainly generated when cigarette smoke or fuels are burned.

A number of filter cartridges must be used in the air cleaner to filter out fine dust or ultrafine dust. The multi-stage filter cartridge also functions to filter fine dust and the like in the air, but it is pointed out that the filter cartridge is clogged by dust having a larger particle size than fine dust.

 Particularly, when the air cleaner is used for a long time, contaminants accumulate in the filter cartridge, thereby causing deterioration of the filter performance. In order to prevent such a problem, an air cleaning type air cleaning technology has been proposed (see Patent Document 1). However, even in the case of the air cleaning method, the water tank of the air cleaner needs to be cleaned, and the filter attached to the water tank must be periodically replaced.

Also, it is pointed out that the air washer system is inferior to the multi-filter system in terms of air cleaning function. To complement this approach, and to filter ultrafine dust, high efficiency particulate air filter technology has recently been spotlighted.

However, the HEPA filter has various grades, and the higher the rating, the more expensive it becomes. In addition, the air cleaner using the HEPA filter has a complicated structure, and it is pointed out that a specialist is needed to manage the cleaning.

Therefore, there is a need for a new type of air filter capable of filtering various sizes of dust from not only minute dust but also fine dust, even though it has a simple structure, even for organisms such as bacteria or viruses Is required.

Patent Document 1: Published Patent No. 10-2017-0051276 (May 11, 2017) Patent Document 2: Registration No. 10-1306966 (September 03, 2013) Patent Document 3: Published Patent No. 10-2016-0137093 (November 30, 2016) Patent Document 4: Published Patent No. 10-2015-0091083 (August 07, 2015)

The present invention, which is devised in view of the above-described need, is capable of filtering dust particles having a simple structure but of various sizes, a surface area in contact with air is widened to improve filtering performance, and a static electricity An air filter, and an air cleaning device using the same.

In order to achieve the above object, an electrostatic air filter according to an embodiment of the present invention includes a plurality of pores on an outer surface and is divided into a first body and a second body, and is formed by the first body and the second body A plurality of filler bodies each having a uniform diameter that fills the internal space of the body portion and a static electricity generating unit for applying an electrostatic force to the body portion and the plurality of filler bodies from the outside of the body portion, .

In this case, the body includes a fastening member for releasably fastening the first body and the second body, and the fastening member has a plurality of pores.

In this case, the plurality of fillers are filled in the inner space of the body part in a multi-layered structure.

In this case, the static electricity generator generates static electricity to be applied to the body portion and the plurality of fillers, and the static electricity may be applied to the entire outer surface of the plurality of fillers through the body portion.

According to another aspect of the present invention, there is provided an electrostatic air filter including a front portion including a plurality of pores, a rear portion including a plurality of pores, a rectangular frame portion for fastening the front portion and the rear portion to each other, A plurality of spherical fillers to be filled in an inner space formed by the rectangular frame parts, and a static electricity generator which is located in one area of the rectangular frame part and generates static electricity applied to the plurality of fillers.

In this case, the plurality of fillers are filled in a multi-layered structure in the internal space of the body portion.

In this case, the static electricity generator generates static electricity to be applied to the front face portion, the rear face portion, the rectangular frame portion, and the plurality of filled bodies, and the static electricity is supplied to the entire outer surface of the plurality of filled bodies Lt; / RTI >

The electrostatic air filter according to another embodiment of the present invention is characterized in that the electrostatic air filter includes a body portion, a plurality of filler bodies in the form of a sphere inside the body portion, And a static electricity generator for generating static electricity to be applied to the plurality of fillers, wherein the air cleaner sucks air from a lower portion of the apparatus, passes the sucked air through the electrostatic air filter, To purify the air.

In this case, the electrostatic air filter may be filled so that the plurality of fillers having the same inside diameter are stacked in a plurality of layers.

Wherein the static electricity air filter is configured to apply the static electricity generated by the static electricity generator to the outer surface of the filler constituting the plurality of layers and to apply the static electricity generated by the plurality of fillers It is possible to selectively collect the particles passing through the pores.

According to various embodiments of the present invention, a filter structure capable of filtering dust particles of various sizes can be simplified, a surface area with air can be widened, filtering performance can be improved, The effect can be demonstrated.

FIG. 1 is a view for explaining an example of a spherical electrostatic air filter, which is an embodiment of the present invention,
2 is a view for explaining the internal structure of a spherical electrostatic air filter, which is an embodiment of the present invention,
FIG. 3 is a view for explaining an example in which static electricity is applied to a plurality of filled bodies in FIG. 2,
4 is a view for explaining an example of a rectangular electrostatic-type air filter, which is another embodiment of the present invention,
5 is a view for explaining the air flow in the electrostatic air filter shown in FIG. 4,
6 is a view for explaining air flow during air purification of an air cleaning apparatus using an electrostatic air filter according to another embodiment of the present invention,
7 is a view for explaining an example in which a spherical electrostatic air filter, which is an embodiment of the present invention, is installed in an air purification apparatus,
8 is a view for explaining the air flow in the air purifying apparatus shown in Fig. 7,
9 is a view for explaining an exemplary structure of the air purifying apparatus shown in Fig. 7, and Fig.
10 is an exemplary three-dimensional modeling view of an air purification apparatus in accordance with an embodiment of the present invention.

Hereinafter, various embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the present invention is not limited or limited by the embodiments. Further, the accumulation or ratio of the drawings in the various embodiments of the present invention is merely exemplary, and the elements of the present invention shown in the drawings according to the embodiments may be designed differently in shape, form, size, or size.

1 is a view for explaining an example of a spherical electrostatic air filter according to an embodiment of the present invention. 1, the electrostatic air filter 100 has a spherical shape and includes a first body 110 at the upper end, a second body 130 at the lower end, a first body 110 and a second body 130 A plurality of filler bodies 150 in the form of a sphere to be filled in the formed space formed therein, a fastening member 170 for fastening the upper end portion 110 and the lower end portion 130 to each other and a plurality of static electricity applied to the plurality of filler bodies 150 And a static electricity generating unit 190 for generating static electricity.

The electrostatic air filter 100 is formed by a first body 110 and a second body 130, and includes a plurality of pores on an outer surface thereof. The cross-sectional shape of the electrostatic air filter 100 may be elliptical, circular, or polygonal. When the cross section of the electrostatic air filter 100 is circular or elliptical, it may be called a 360 degree filter.

1, a plurality of pores each having a diameter of 0.5? Are formed on the surface of the first body 110, and a plurality (not shown) of pores are formed in the interior of the first body 110. As shown in FIG. The filling body 150 may be filled.

The first body 110 and the second body 130 of the electrostatic air filter 100 may be made of a metal material. The first body 110 and the second body 130 are made of metal and have good electrical conductivity and can transfer the static electricity generated by the static electricity generator 190 to the interior of the electrostatic air filter 100. A mesh may be further included between the first body 110 and the second body 130 and the plurality of fillers 150.

The plurality of filler bodies 150 may be made of polypropylene, which is a hydrophobic material, and preferably have a spherical shape with a uniform diameter. The diameter of the plurality of filler bodies 150 is preferably 1 ?.

The fastening member 170 fastens the first body 110 and the second body 130 to each other. And the pores are formed on one surface of the fastening member 170. The diameter of the pores of the fastening member 170 can be designed to be 0.5?.

Hereinafter, the internal structure of the electrostatic air filter 100 will be described with reference to a separate drawing.

2 is a view for explaining an internal structure of a spherical electrostatic air filter, which is an embodiment of the present invention. Referring to FIG. 2, a plurality of pores are formed on the outer surfaces of the first body 110 and the second body 130. The diameter of the pores provided in the first body 110 and the second body 130 is smaller than the diameter of the plurality of filled bodies filled in the first body 110 and the second body 130. Therefore, although the air can flow out through the pores of the first body 110 and the second body 130, the plurality of internal fillers 150 do not escape to the outside. The fastening member 170 fastens the first body 110 and the second body 130 together and includes a plurality of pores on the outer surface of the fastening member 170. The first body 110 or the second body 130 includes an electrostatic generator 190 on the outer surface thereof. The static electricity generator 190 may be implemented as a PN semiconductor or the like and generates a static electricity having a voltage of more than 10,000 volts and a current of less than 1 milliampere [ 150). An enlarged view of a portion indicated by a dotted line in FIG. 2 is shown in FIG. 3, which will be described later in conjunction with FIG.

FIG. 3 is a view for explaining an example in which static electricity is applied to a plurality of filled bodies in FIG. Referring to FIG. 3, air can be sucked through the first pores 131-1 and the second pores 131-2 provided in the second body 130. The first pores 131-1 and the second pores 131-2 can be processed into a tapered shape on the inner surface. This tapered shape prevents the filling body from blocking the pores. In addition, by providing a mesh net inside the first body 110 and the second body 130, it is possible to prevent the filling body from blocking the pores.

The static electricity generated by the static electricity generator 190 may be applied to each of the plurality of fillers 150. [ 3 shows an example in which an electrostatic EL is applied to the outer surface of one of the plurality of fillers 150-1 and static electricity is similarly applied to the outer surfaces of the plurality of fillers. An electromagnetic field can be formed due to the static electricity applied between the filling bodies.

There is a gap between the plurality of fillers. However, an electromagnetic field is formed by the static electricity applied to the adjacent filling body at the gap between the filling bodies, and the electromagnetic field functions as the electrostatic curtain. That is, as the air passes through the air gap, the electrostatic curtain formed in the air selectively filters some of the dust contained in the air.

4 is a view illustrating an example of a rectangular electrostatic-type air filter according to another embodiment of the present invention. 4, includes a front portion 110, a rear portion 130, a plurality of fillers 150, a rectangular frame portion 170, and a static electricity generating portion 190.

The front portion 110 includes a plurality of pre-defined pore sizes. The back surface 130 includes a plurality of pre-defined pore sizes. The plurality of filling bodies 150 are filled in the inner space formed by the front portion 110, the rear portion 130 and the rectangular frame portion 170. The rectangular frame part 170 fastens the front part 110 and the rear part 130 to each other. The static electricity generating part 190 is located in one area of the rectangular frame part 170 and generates static electricity to be applied to the plurality of filling bodies 150.

5 is a view for explaining the air flow in the electrostatic air filter shown in FIG. 5, the X direction is the air inflow direction and the Y direction is the air outflow direction. The introduced air contacts the front portion 110 and is sucked into the electrostatic air filter 100. Since the inside of the electrostatic air filter 100 is filled with the plurality of filler bodies 150, the sucked air passes through the plurality of filler bodies 150 and performs a purifying action. The air that has passed through the plurality of fillers 150 flows out in the direction of purified air Y.

In FIG. 5, the static electricity generating part 190 provided in one area of the rectangular frame part 170 generates static electricity and applies the generated static electricity to the plurality of internal filling bodies 150, thereby forming an electrostatic curtain between the plural filling bodies. The dust in the intake air is selectively filtered during the passage through the calender curtain.

6 is a view for explaining the air flow during the air cleaning of the air cleaning apparatus using the electrostatic air filter according to another embodiment of the present invention. Referring to FIG. 6, air is sucked from the bottom of the air purifier 1000. The sucked air is subjected to a filtering process in the electrostatic air filter 100 provided inside the housing part 200 of the air purifying device 1000. The filtered air is moved upward by the fan 300 and purified air is discharged in the direction of 360 degrees from the top of the air purifier 1000.

7 is a view for explaining an example in which a spherical electrostatic air filter, which is an embodiment of the present invention, is installed in an air purification apparatus. Referring to FIG. 7, a spherical electrostatic air filter 100 is installed inside the housing part 200 of the air purifier 1000. The first body 110 faces upward and the second body 130 contacts the bottom. Since the first body 110 faces the upper portion of the air purifier 1000, the air can be circulated upward through the air flow port 230 of the air purifier 1000.

7, it is shown that the fan 300 is not installed in the air flow port 230. However, in the embodiment, the fan 300 is provided on the upper portion of the air flow port 230, .

8 is a view for explaining the air flow in the air purifying apparatus shown in Fig. Referring to FIG. 8, the lower air A1 includes various pollutants such as chemicals, bacteria, and fine dust. The air A1 sucked through the suction port flows into the electrostatic air filter 100, and bacteria, chemicals, fine dust, and the like are filtered by the electrostatic method. The air A2 to be filtered by the electrostatic air filter 100 can be sequentially removed while passing through the multilayer formed by the plurality of fillers 150 filled in the electrostatic air filter 100. [

Fig. 9 is a view for explaining an exemplary structure of the air purifying apparatus shown in Fig. 7. Fig. Referring to FIG. 9, the air purifier 1000 includes an electrostatic air filter 100 inside a housing part 200 and an air inlet 210 at a lower part of the housing part 200. The air sucked through the air inlet 210 is purified through the electrostatic air filter 100. The air having been subjected to the air purification operation rises to the top due to the action of the fan 300 located at the upper part of the housing part 200 and the raised air is discharged to the outside through the air outlet 250. The air purifier 1000 includes a static electricity generator 190 that supplies static electricity to the static air filter 100 installed therein. The mounting position of the static electricity generator 190 shown in FIG. 9 is an example, and may be changed to another position according to the embodiment.

10 is an exemplary modeling view of an air purification apparatus in accordance with an embodiment of the present invention. 10, the air purifier 1000 includes a housing part 200 in the form of a jar and an air inlet 210 at a lower end of the housing part 200. An air outlet 210 is formed in the upper end of the housing part 200, 250). The air intake port 210 may be composed of a plurality of intake ports partitioned by vertical partition walls. The air outlet 250 may be composed of a plurality of outlets divided into vertical partitions. An air outlet or an air inlet may be provided on the upper portion or the lower portion of the housing portion 200, and the position and the shape of the housing portion 200 may be variously changed.

Although illustrative embodiments and applications of the present invention have been shown and described, many changes and modifications may be made without departing from the scope of the present invention, and such modifications may be made by one of ordinary skill in the art to which the present invention pertains It can be clearly understood. Accordingly, the described embodiments are illustrative and not restrictive, and the invention is not limited by the accompanying detailed description, but is capable of modifications within the scope of the claims.

100: Electrostatic air filter 110: First body (front part)
130: second body (rear portion) 150: plural filling bodies
170: fastening means (square frame portion) 190: static electricity generating portion
1000: air purifier 200: housing part
210: air intake port 230: air flow port
250: air outlet 300: fan

Claims (10)

In the electrostatic air filter,
A body portion having a plurality of pores on an outer surface thereof, the body portion being divided into a first body and a second body and having an inner space defined by the first body and the second body;
A plurality of spherical fillers having a uniform diameter to fill the internal space of the body portion; And
And a static electricity generator for applying static electricity to the body and the plurality of fillers from the outside of the body. The method according to claim 1,
The body portion may include a fastening member for releasably fastening the first body and the second body,
Wherein the fastening member has a plurality of pores. The method according to claim 1,
Wherein the plurality of fillers are filled in the inner space of the body portion to have a multi-layer structure. The method according to claim 1,
Wherein the static electricity generator generates static electricity to be applied to the body and the plurality of filled bodies,
Wherein the static electricity is applied to the entire outer surface of the plurality of fillers through the body portion. In the electrostatic air filter,
A front portion including a plurality of pores;
A rear portion including a plurality of pores;
A rectangular frame part for fastening the front part and the rear part to each other;
A plurality of spherical fillers filled in an inner space formed by the front part, the rear part, and the rectangular frame part; And
And a static electricity generator positioned in one area of the rectangular frame part to generate static electricity applied to the plurality of fillers. 6. The method of claim 5,
Wherein the plurality of fillers are filled in the inner space of the body portion to have a multi-layer structure. 6. The method of claim 5,
Wherein the static electricity generator generates static electricity to be applied to the front portion, the rear portion, the rectangular frame portion, and the plurality of filled bodies,
Wherein the static electricity is applied to the entire outer surface of the plurality of fillers through the rectangular frame portion. 1. An air cleaning apparatus using an electrostatic air filter,
The electrostatic air filter includes a body portion, a plurality of filler bodies in the form of a sphere inside the body portion, and a static electricity generator for generating static electricity applied to the body portion and the plurality of fillers at a portion of the body portion,
Wherein the air purifier sucks air from a lower portion of the apparatus, passes the sucked air through the electrostatic air filter, and discharges purified air to the upper portion to purify the air. Device. 9. The method of claim 8,
Wherein the static electricity air filter is filled with the plurality of fillers having the same diameter in the plurality of layers. 10. The method of claim 9,
Wherein the static electricity air filter applies static electricity generated by the static electricity generator to an outer surface of the filling body constituting the plurality of layers,
And selectively collecting the particles passing through the gap formed by the plurality of fillers by the static electricity applied to the outer surface of the filler.

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