KR100980303B1 - Purifying apparatus for air - Google Patents

Abstract

PURPOSE: An apparatus for purifying air is provided to enhance air purification efficiency by continuously washing contaminants, which are adsorbed on the outer circumference of spheres, using cleaning water which is sprayed from the lower part of the apparatus. CONSTITUTION: An apparatus for purifying air comprises: a housing(10); an air induction pipe(20); a disc-shaped first support member including a plurality of first penetration holes(31); a plurality of spheres(40) which are stacked on the upper side of the first support member; a ring member(50) including a plurality of cut grooves(51); a first filter(70) including a second support member(60) with one or more second penetration holes(61); a first cleaning unit(80) including a plurality of first nozzles(81) spraying cleaning water; and a second cleaning unit(90) including a plurality of second nozzles(101).

Description

Purifying apparatus for air

The present invention relates to an air purifier, and more particularly, to increase the air purification efficiency, to facilitate maintenance, and to reduce the consumption of washing water, thereby reducing the cost of air purification, The present invention relates to an air purifying device capable of comfortably maintaining a working environment in a factory operating a purifying device.

In general, air contains a large amount of solid particles such as fine dust, and these solid particles may be included as deadly substances such as lead, such as lead, and various devices for filtering these harmful particles have been proposed. .

In particular, in a battery manufacturing process using lead during the manufacturing process, in order to remove the lead component contained in the air, a plurality of spheres are laminated on a plate-shaped support panel inside the housing of the enclosure, and the plurality of spheres are contaminated. By inflowing the air containing this, lead components and the like were adsorbed on the outer circumferential surface of the sphere.

In addition, air purifiers have been proposed to remove harmful substances in the air by spraying a washing solution onto a plurality of spheres on which an outer circumferential surface is adsorbed such that contaminants are dissolved in the washing solution.

However, according to the conventional air purifier, the particulate contaminants in the air accumulate on the outer circumferential surface of the plurality of spheres for a long time, so that the adsorbed contaminants cannot be easily washed, and thus the plurality of spheres may be caused by poor washing. By replacing the whole as a whole, there was a problem in that the operation of the air purifier periodically stopped.

In addition, by not circulating the washing water used for washing, it is not possible to reuse the collected washing water, it is inevitable to increase the cost required for air purification because it is not possible to reduce the consumption of the washing water.

In addition, it is not possible to completely remove the water vapor in the purified air, it is not possible to reduce the discharge noise of the air discharged out of the housing, there is a problem that the working environment in the factory operating the conventional air purifier is inevitably worsened.

An object of the present invention devised to solve the above problems is to increase the air purification efficiency, easy maintenance, can reduce the consumption of the washing water can not only reduce the cost of air purification, An object of the present invention is to provide an air purifier that can comfortably maintain a working environment in a factory operating an air purifier.

Air purifying device according to an embodiment of the present invention devised to achieve the above object, the housing is supported on the installation surface, the outer and sealed; An air suction pipe connected to one side of an outer circumferential surface of the housing and supplied with air containing particulate pollutants from the outside through one end; A first support member on a disc disposed inside the housing and positioned at an upper side of the other end of the air suction pipe, in which a plurality of first through holes are formed, a plurality of spheres stacked on an upper surface of the first support member; A ring member having a lower edge portion fixed along the circumference of the first support member and having the plurality of spheres stored therein, and having a plurality of V-shaped incision grooves formed at a predetermined interval along the upper edge portion; The edge portion of the first support member is connected to the inner circumferential surface of the housing, and at least one second through hole is formed between the edge portion of the first support member and the inner circumferential surface of the housing, and coupled to each of the second through holes, respectively. A first filter part having a second support member having a discharge pipe having a lower end extending to a position lower than the other end of the air suction pipe; A first washing unit disposed below the first filter unit and having a plurality of first nozzles for spraying washing water supplied from the outside toward the bottom surface of the first supporting member of the first filter unit; And a second washing unit disposed above the first filter unit and having a plurality of second nozzles for spraying washing water supplied from the outside toward the plurality of spheres of the first filter unit. And the contaminants adsorbed on the outer circumferential surfaces of the plurality of spheres after passing through the plurality of first through holes include washing water sprayed from the plurality of first nozzles of the first washing unit and a plurality of second washing units. It can be separated and washed by washing water sprayed from two nozzles, overflowed through the V-shaped incision grooves, and then discharged out of the housing through discharge pipes coupled to one or more second through holes of the first filter part. The air suction pipe is characterized in that the other end is disposed so as to face between the central portion and the inner wall surface of the housing, is connected to the exhaust hole formed through the upper end of the housing, and formed along the cylindrical tube circumference The air is introduced through a plurality of third through holes which are provided, and the introduced air forms an interval at a predetermined interval. A second filter part which is guided to a plurality of bent plate members stacked on the inside of the tube and is discharged out of the housing; The second filter part further includes a scrubber or sponge-like porous body disposed between the inner circumferential surface of the tube and the plurality of bent plates, and the particle size is increased while the water vapor particles in the air collide with each other. As it is collected, it is characterized in that the amount of water vapor in the air discharged out of the housing is reduced.

In addition, the air purifier of the present invention, the first discharge pipe connected to the exhaust hole, the air passing through the first discharge pipe is introduced, a sound absorber having a sound absorbent disposed inside, connected to the sound absorber and passes through the sound absorber It may further include a discharge unit having a second discharge pipe for discharging the air to the outside, the noise generated as the air is discharged out of the housing can be reduced.

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In addition, the washing water sprayed from the plurality of first nozzles of the first washing unit and the plurality of second nozzles of the second washing unit washes the contaminants adsorbed on the outer circumferential surfaces of the plurality of spheres, and then the contaminants are separated. Can be recycled.

According to the present invention, the contaminants in the air adsorbed to the outer circumferential surface of the plurality of spheres are washed by washing water while passing through the fine pores formed between the plurality of spheres stacked on the upper side of the first support member. As a result, the polluted air is purified, and the pollutants adsorbed on the outer circumferential surfaces of the plurality of spheres are continuously washed and separated by washing water sprayed from the lower side, thereby increasing the air purification efficiency.

In addition, the contaminants that are not easily washed by being adsorbed for a long time among the contaminants in the air adsorbed on the outer circumferential surfaces of the plurality of spheres are washed once more with washing water sprayed periodically from above, thereby completely purifying the air. You can.

Therefore, unlike the prior art in which a plurality of spheres are replaced as a whole due to poor cleaning, it is possible to completely wash the contaminants adsorbed on the outer circumferential surface of the plurality of spheres, thereby maintaining maintenance by not periodically stopping the air purifier. Was easy.

In addition, according to the present invention, in order to wash the contaminants adsorbed on the outer circumferential surface of the plurality of spheres collected for a predetermined time in the washing water recovery box located below the first support member to wash water sprayed from the upper and lower, By removing only the contaminants that are solid components, and then circulating the wash water recovered through the wash water line as a circulation pump, it can be reused to reduce the consumption of the wash water to reduce the cost of air purification.

In particular, it is possible to completely remove the water vapor in the purified air, and to reduce the discharge noise of the air discharged out of the housing, it is possible to comfortably maintain the working environment in the factory operating the air purifier of the present invention.

In addition, the other end of the air suction pipe is disposed so as to face between the center of the housing and the inner wall surface, the air containing the contaminant is introduced through the air suction pipe, and then rotated in a spiral spiral inside the housing , The flow of air flowing into the inside of the housing is faster, thereby improving the air purification performance.

Hereinafter, with reference to the accompanying drawings an air purifying apparatus according to a preferred embodiment of the present invention will be described in detail.

1 is a cross-sectional view showing the main configuration of the air purifying apparatus according to an embodiment of the present invention.

1, the air purifying apparatus according to an embodiment of the present invention, the housing 10 is supported on the installation surface (G); An air suction pipe 20 through which air A is supplied; A first filter part 70 disposed inside the housing 10 and having a plurality of spheres 40 capable of absorbing contaminants A1 contained in air A; A first washing unit 80 disposed below the first filtering unit 70 and spraying the washing water toward the plurality of spheres 40; A second filter unit 90 for reducing the amount of water vapor in the air A discharged out of the housing 10; A second washing unit 100 disposed above the first filter unit 70 and spraying the washing water toward the plurality of spheres 40; And a discharge unit 110 to reduce noise generated as air A is discharged out of the housing 10.

More specifically, the air purifying apparatus according to an embodiment of the present invention, the housing 10 is supported on the installation surface (G), and sealed to the outside; An air suction pipe 20 connected to one side of the outer circumferential surface of the housing 10 and supplied with air A containing particulate pollutants A1 from the outside through one end thereof; The first support member 30 of the disc is disposed inside the housing 10 and positioned on the other end of the air suction pipe 20 based on the other end, and the plurality of first through holes 31 are formed thereon, and A plurality of spheres 40 and the lower edge portion is fixed along the circumference of the first support member 30 and stacked on the upper surface of the first support member 30, the plurality of spheres 40 are stored inside, A plurality of ring members 50 having a plurality of V-shaped incision grooves 51 are formed at a predetermined interval along the upper edge portion, and the edge portions of the first support member 30 are connected to the inner circumferential surface of the housing 10. A first filter part 70 having a disc-shaped second support member 60 in which at least one second through hole 61 is formed; A plurality of first nozzles 81 disposed below the first filter part 70 and spraying the washing water supplied from the outside may be used to lower the bottom surface of the first support member 30 of the first filter part 70. A first washing unit 80 disposed toward the first washing unit 80; The air (A) is introduced through a plurality of third through holes (93) which are connected to the exhaust hole (11) formed through the upper end of the housing (10) and formed along the circumference of the cylindrical tube (91). And, the introduced air (A) is guided to a plurality of bent plate 92 is laminated to the inside of the tube 91 at a set interval, the second filter unit 90 is discharged out of the housing 10 ; And a plurality of second nozzles 101 disposed above the first filter part 70 and spraying the washing water supplied from the outside to the plurality of spheres 40 of the first filter part 70. 2 washing unit 100; It includes, The contaminant (A1) is adsorbed on the outer circumferential surface of the plurality of spheres 40 after passing through the plurality of first through holes 31 are a plurality of first nozzles of the first cleaning unit 80 Separately washed by the washing water sprayed from the 81, characterized in that can be discharged out of the housing (10).

In the air purifying apparatus according to the preferred embodiment of the present invention, it looks at washing and separating the contaminants in the sucked air adsorbed to the sphere.

Figure 2 is a schematic diagram showing that the pollutants in the inhaled air is adsorbed to the sphere in the air purifier shown in Figure 1, Figure 3 shows that the pollutants are separated by washing water sprayed from the first injection nozzle Schematic shown.

Referring to FIGS. 2 and 3, the contaminants are washed and separated, and the first filter part 70 of the present invention is disposed inside the housing 10 and is positioned above the other end of the air suction pipe 20. A plurality of spheres 40 are stacked on the upper surface of the disc-shaped first support member 30 in which the plurality of first through holes 31 are formed, and from the outside of the housing 10, the pollutant A1 is disposed. The air (A) that is included is introduced to pass through the plurality of spheres (40) (see Figure 2).

In this case, the plurality of first nozzles 81 spray the washing water W toward the bottom surface of the first support member 30, whereby the pollutants A1 adsorbed on the outer circumferential surfaces of the plurality of spheres 40 are discharged. Dissolved by washing and separated from the plurality of spheres 40 while flowing with the washing water (W) and collected in the washing water collection box (B), the air (A) introduced from the outside is purified (see FIG. 3).

Here, the other end of the air suction pipe 20 may be arranged and coupled to face the center of the housing 10, but disposed and coupled so as to face between the center of the housing 10 and the inner wall surface of the housing 10. May be

In particular, when the other end of the air suction pipe 20 is disposed and coupled so as to face between the central portion of the housing 10 and the inner wall surface of the housing 10, contaminants (through the air suction pipe 20) After the air A including A1) is introduced, the first filter part does not immediately rise vertically to the first filter part 70, but rotates in a spiral form in a spiral form inside the housing 10. It gradually rises toward 70.

As a result, the flow of the fluid flowing inwardly of the housing 10, that is, the air A, is increased, similar to the flow of the vortex-like fluid in the cyclone device, and the contaminant A1 in the form of particles introduced together is air. Unlike (A), while being adsorbed by the wash water (W), it is separated downward to fall toward the wash water recovery box (B).

Of course, in the air purifying apparatus of the present invention, the plurality of spheres (40) 5 is adsorbed on the outer circumferential surface while being flowed or rotated by the washing water (W) sprayed from the plurality of first nozzles 81 as described above As the material (A1) is separated and washed, or washed as it is adsorbed by the washing water (W) in the spirally rotating process as described above, the contaminants accumulated and accumulated for a long time are rarely washed. Is generated.

Therefore, at this time, the washing water W sprayed from the plurality of second nozzles 101 disposed above the first filter unit 70 may form the plurality of spheres 40 of the first filter unit 70. By spraying once more, the pollutants A1 accumulated and adsorbed for a long time are finally washed and separated.

At this time, the washing water (W) and the contaminant (A1) flows through the V-shaped cutout groove (51) formed in a plurality at the interval set in the ring member 50, and then, the second It passes through one or more second through holes 61 formed in the support member 60 and flows down together and is collected in the washing water collection box B (see FIG. 4).

Then, the collected washing water (W) and the contaminant (A1) is collected in the washing water recovery box (B), and then the contaminant (A1) is discharged out through the pollutant outlet (B1) for disposal, and purified water (W) is circulated through the washing water circulation line (R) by a separate circulation pump (P) and reused. (See FIG. 7)

Subsequently, the process of removing water vapor from the purified air by removing the contaminants A1 will be described with reference to FIG. 5.

5 is a schematic view showing that the sucked air is dried and discharged inside the second filter unit.

5, the upper end of the housing 10 of the air purifier of the present invention is provided with a second filter unit 90 for removing water vapor from the purified air.

In this case, the second filter unit 90 includes a scrubber or sponge-like porous body 94 disposed between the inner circumferential surface of the tubular body 91 and the plurality of bent plate members 92, whereby the purified air is tubular. When introduced into the 91, as the water vapor particles in the introduced air A collide with the porous body 94, the particle size is increased and collected, so that the amount of water vapor in the air A discharged out of the housing 10 is remarkably increased. (See FIG. 5).

Figure 6 is a schematic diagram showing that the air is discharged in a state in which the emission noise is reduced.

Referring to FIG. 6, one side of the housing 10 of the air purifier of the present invention is provided with a discharge unit 110. The discharge unit 110 includes a first discharge pipe 111 and the first discharge pipe 111. The air (A) passing through the inflow, the sound absorber 112 is disposed inside the sound absorber 112, and the second discharge pipe 113 for discharging the air (A) passed through the sound absorber 112 to the outside by providing The noise generated by the sound absorber 112 is eliminated and the air A is discharged out of the housing 10.

The present invention is not limited to the above-described preferred embodiments, and any person having ordinary skill in the art to which the present invention pertains can easily make modifications without departing from the spirit of the present invention as claimed in the claims. Such changes will fall within the scope of the claims.

1 is a cross-sectional view showing the main configuration of the air purifying apparatus according to an embodiment of the present invention.

Figure 2 is a schematic diagram showing that in the air purifier shown in Figure 1, the contaminants in the sucked air is adsorbed to the sphere.

3 is a schematic view showing that the pollutant is separated by washing water sprayed from the first injection nozzle.

Figure 4 is a schematic diagram showing that the pollutants are washed and separated by the washing water sprayed from the second injection nozzle, and then overflows through the incision groove.

5 is a schematic view showing that the sucked air is dried and discharged inside the second filter unit.

Figure 6 is a schematic diagram showing that the air is discharged in a state in which the discharge noise is reduced.

Figure 7 is a schematic diagram showing that the wash liquid is recovered, then circulated and reused.

<Description of the symbols for the main parts of the drawings>

10 housing 20 air suction pipe

30: first support member 31: first through hole

40 sphere 50 ring member

51: incision groove 60: second support member

61: second through hole 70: first filter part

80: first cleaning unit 81: first nozzle

90: second filter portion 91: tubular body

92: plate 93: third through hole

94: porous body 100: second cleaning unit

101: second nozzle 110: discharge part

111: first discharge pipe 112: sound absorber

113: second discharge pipe A: air

A1: Pollutant B: Washing water recovery

B1: Pollutant outlet G: Mounting surface

P: Circulation pump R: Washing water circulation line

W: wash water

Claims (5)

A housing supported on the installation surface and sealed to the outside; An air suction pipe connected to one side of an outer circumferential surface of the housing and supplied with air containing particulate pollutants from the outside through one end; A first support member on a disc disposed inside the housing and positioned at an upper side of the other end of the air suction pipe, in which a plurality of first through holes are formed, a plurality of spheres stacked on an upper surface of the first support member; A ring member having a lower edge portion fixed along the circumference of the first support member and having the plurality of spheres stored therein, and having a plurality of V-shaped incision grooves formed at a predetermined interval along the upper edge portion; The edge portion of the first support member is connected to the inner circumferential surface of the housing, and at least one second through hole is formed between the edge portion of the first support member and the inner circumferential surface of the housing, and coupled to each of the second through holes, respectively. A first filter part having a second support member having a discharge pipe having a lower end extending to a position lower than the other end of the air suction pipe; A first washing unit disposed below the first filter unit and having a plurality of first nozzles for spraying washing water supplied from the outside toward the bottom surface of the first supporting member of the first filter unit; And A second washing part disposed above the first filter part and having a plurality of second nozzles for spraying washing water supplied from the outside toward the plurality of spheres of the first filter part; And the contaminants adsorbed on the outer circumferential surfaces of the plurality of spheres after passing through the plurality of first through holes include washing water sprayed from the plurality of first nozzles of the first washing unit and a plurality of second washing units. It can be separated and washed by washing water sprayed from two nozzles, overflowed through the V-shaped incision grooves, and then discharged out of the housing through discharge pipes coupled to one or more second through holes of the first filter part. With The air suction pipe, It is characterized in that the other end is disposed so as to face between the central portion and the inner wall surface of the housing, It is connected to the exhaust hole formed through the upper end of the housing, the air is introduced through a plurality of third through holes formed along the cylindrical tube circumference, the introduced air is laminated at the inside of the tube at a predetermined interval A second filter part guided to a plurality of bent plate members disposed and discharged out of the housing; More, The second filter unit, A scrubber or sponge-like porous body disposed between the inner circumferential surface of the tube and the plurality of bent plates, and the amount of water vapor in the air discharged out of the housing as the particle size increases and is collected while colliding with the water vapor particles in the inflowed air. Air purifier, characterized in that to be reduced. delete The method of claim 1, A first discharge pipe connected to the exhaust hole, air passing through the first discharge pipe is introduced, a sound absorber having an absorbent disposed therein, and a second discharge pipe connected to the sound absorber to discharge air passing through the sound absorber to the outside. Air purifier, characterized in that further comprising; to reduce the noise generated as the air is discharged out of the housing. delete The method of claim 1, The washing water sprayed from the plurality of first nozzles of the first washing unit and the plurality of second nozzles of the second washing unit washes the contaminants adsorbed on the outer circumferential surfaces of the plurality of spheres, and the contaminants are separated and then recycled. Air purifier, characterized in that.

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