KR102241219B1 - Air purifier - Google Patents

Abstract

The present invention relates to an air purifying apparatus, and more particularly, by adsorbing and removing dust from high-temperature air containing dust through cooled treated water, and heat-exchanging heated treated water heat-exchanged with high-temperature air to cool it, The heat exchanged relates to an air purifier that can be recycled.

Description

Air purifier

The present invention relates to an air purification apparatus that adsorbs and removes dust from hot air containing dust through cooled treated water, and heat-exchanging heat energy of heated treated water for recycling.

With the development of the industry, environmental pollution problems are becoming more serious, and the regulations on pollutants are also being strengthened. In accordance with this trend, a device for removing environmental pollutants has been devised. The most representative air purifying device adopts a method of filtering or adsorbing pollutants by means of a filter while forcibly circulating indoor air by driving a blower. I'm doing it.

Conventional air purifiers have the inconvenience of frequent cleaning of the filter after disassembling it, as the efficiency decreases when the filter is blocked by contaminants and causes failure. In particular, it is difficult to leave the filter contaminated with contaminants for a long time. In this case, there is a problem in that mold or bacteria inhabit the pollutant, which not only generates odor, but also acts as a pollutant source of the air, and in severe cases, it may cause disease outbreak.

In particular, when the waste is disposed of by incineration, fine dust consisting of a large amount of dust and fine volatile organic compounds is easily evaporated into the atmosphere due to high vapor pressure, and photochemical reactions with nitrogen oxides in the atmosphere cause photochemical smog to destroy the ozone layer. It is known to be a very harmful substance to the human body, and it is known as a major cause of the high concentration of volatile organic compounds in indoor environments where many people are always exposed, and the importance of removing them is emphasized in terms of environmental health.

Volatile organic compound treatment technologies widely used in the field include thermal incineration, adsorption, and catalytic incineration.In particular, the thermal incineration method has a large load fluctuation, low concentration, and is uneconomical in the case of low flow rate, and produces nitrogen oxide and dioxin. In the adsorption method, when ketones, aldehydes, and esters are included, the adsorption capacity of the adsorbent decreases, and the adsorption efficiency decreases due to dust contamination, and the catalytic incineration method has a relatively low flow rate of medium/low temperature volatile organics. It is uneconomical to apply to the removal of compounds due to excessive initial investment and high operating costs, and it is difficult to apply to processes with an explosion risk.

In the case of recent air pollution, the source of pollutants is diversified and new pollutants are continuously generated, so the conventional simple treatment method is facing a limit. In addition, in the case of the conventional air purification device, the method of decomposing and treating pollutants in the air In addition, there is a problem in that it takes a lot of time and cost for maintenance as well as generating a second pollutant by simply filtration or adsorption with an adsorbent.

Korean Patent Registration No. 10-0903420 Korean Patent Registration No. 10-0750388 Korean Patent Registration No. 10-0192561 Korean Patent Registration No. 10-0232836

In order to solve the above problems, the present invention adsorbs and removes dust from high-temperature air containing dust through cooled treated water, heat-exchanging heat-exchanged treated water with high-temperature air to cool it, and the exchanged heat is recovered. It is to provide an improved air purification device so that it can be recycled.

The problem to be solved of the present invention is not limited to those mentioned above, and other problems that are not mentioned will be clearly understood by those skilled in the art from the following description.

To this end, the air purifying apparatus for efficient dust and odor removal according to the present invention has an air inlet at one side, an air outlet for discharging the treated air at the top, and a treated water outlet at the bottom for discharging the treated water. A main body provided; A water tank for receiving the treated water discharged from the treated water outlet and removing the precipitated slurry; A cooling unit that cools the treated water supplied from the water tank; A nozzle disposed above the main body and spraying the treated water supplied from the cooling unit into the main body; And a microbubble generator for processing the treated water that has passed through the cooling unit to contain microbubbles, and the water tank receives the treated water supplied from the treated water outlet and filters a settling part in which a slurry is settled, and a slurry of the settling part. An air purifying apparatus that is effective in removing dust and odors comprising a filter and a supply unit for receiving purified treated water that has passed through the filter, wherein the cooling unit comprises a cooling water tank and a cooler installed in the cooling water tank, and the nozzle and the main body A moisture removing filter unit for removing moisture in the air discharged to the air outlet is disposed between the upper surfaces, the moisture removing filter unit having a casing detachably coupled to the main body, an absorbent member filled in the casing, and the It is possible to provide an efficient air purification device for removing dust and odors, characterized in that it consists of a net member disposed at the top and bottom of the casing, respectively.

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The air purifying apparatus according to the present invention as described above can efficiently adsorb and remove dust from high-temperature air containing dust through the cooled treated water.

In addition, the air purifying apparatus according to the present invention has an energy saving effect of cooling the heated treated water heat-exchanged with hot air and recycling the exchanged heat.

The air purifying apparatus for a garbage treatment facility according to the present invention can efficiently remove dust and odors by treating high-temperature air containing dust generated during garbage incineration.

The effects of the present invention are not limited to those mentioned above, and other problems that are not mentioned will be clearly understood by those skilled in the art from the following description.

1 is a diagram schematically showing the structure of an air purification apparatus according to the present invention.
2 is a view showing an efficient structure of a conveying duct supplying high-temperature air containing dust according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In describing the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, a detailed description thereof will be omitted. In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intentions or precedents of users or operators. Therefore, the definition should be made based on the contents throughout the present specification.

1 is a view schematically showing the structure of an air purifying apparatus according to the present invention, and FIG. 2 is a view showing the structure of a conveying duct supplying high-temperature air containing dust according to the present invention.

Referring to FIG. 1, the air purifying apparatus 100 according to the present invention is for purifying high-temperature air containing fine dust or dust, and an air inlet 111 is provided at one side, and processed air is provided at the top. The discharged air outlet 112 is provided, the body 110 provided with a treated water discharge port 113 for discharging the treated water 135a is provided at the lower end, and the treated water 135a discharged from the treated water discharge port 113 ), and a water tank 120 for removing the precipitated slurry 121a, a cooling unit 130 for cooling the treated water 135a supplied from the water tank 120, and an upper side of the main body 110 And a nozzle 135 for spraying the treated water 135a supplied from the cooling unit 130 into the body 110.

The air containing fine dust or dust according to the present invention may be, for example, high temperature air generated when combustible waste is incinerated or food waste is dried, and the high temperature air is absorbed by the cooling unit and cooled to the outside. It is discharged into the furnace, and the heat obtained through heat exchange in the cooling unit can be recycled as heating heat.

To this end, the main body 110 is in contact with the treated water 135a descending from the nozzle 135 disposed on the upper side when the high-temperature air 111a introduced from the air inlet 111 disposed at the lower side rises. Provides a space for dust or dust to be adsorbed.

The water tank 120 receives the treated water 135a supplied from the treated water outlet 113 and filters the sediment 121 in which the slurry 121a is precipitated, and the slurry 121a of the sediment 121 It is characterized in that it comprises a filter 127 and a supply unit 128 for receiving the purified treated water 135a that has passed through the filter 127.

The filter 127 divides the water tank 120 to the left and right to divide it into a sedimentation unit 121 and a supply unit 128, and the slurry 121a in which fine dust or dust is agglomerated in the sedimentation unit 121 is It plays a role of permeating only the treated water 135a without permeating it, and increasing filtering efficiency by installing two or more sedimentation portions as necessary.

A sludge discharge port 123 for discharging the slurry 121a is installed below the settling part 121, and a first supply pipe 131a for supplying treated water purified by a cooling part is connected to the supply part 128.

On the other hand, a device capable of measuring the concentration of the slurry, for example, an ultraviolet spectrometer 122 is installed in the sedimentation part 121, and a solenoid valve 125 is installed at the sludge outlet 123 to provide an ultraviolet spectrometer 122. When the concentration of the slurry measured in) exceeds a preset value, the solenoid valve 125 may be controlled to be opened.

In the present invention, since the treated water sprayed from the nozzle 135 is configured to circulate the water tank 120 and the cooling unit 130, it is preferable to discharge only the high-concentration slurry to the outside. In addition, it is preferable to install and supply a solenoid valve 125 in the treated water replenishment pipe 129 so that the treated water forming the slurry is partially discharged to the outside.

The cooling unit 130 may include a cooling water tank 131 and a cooler 133 installed in the cooling water tank 131.

The cooler 133 is known regardless of its name if it can absorb and cool the heat of the treated water heated while in contact with the hot air in the main body 110, and recycle the absorbed heat for purposes such as heating. Various cooling means can be used, and a heat pump, a heat pipe, a refrigerator, etc. can be exemplified, and a hybrid type may be used as an example.

The cooling water tank 131 is provided with a first supply pipe 131a connected to the supply unit 128 and a second supply pipe 131b connected to the nozzle 135, and the first supply pipe 131a and the second A water transfer auxiliary pump 132 may be installed in the supply pipe 131b.

The nozzle 135 is disposed on the upper side of the main body 110 in a transverse direction, and sprays the treated water in a downward direction, and the treated water 135a sprayed from the nozzle 135 can increase the contact area with the air to be treated. It is preferable to be sprayed in the form of fine particles or mist so that.

The treated water 135a may include microbubbles.

That is, the treated water that has passed through the cooling unit 130 may be accommodated in the microbubble formation tank 140 and then microbubbles are generated by the microbubble generator 141.

Microbubbles usually have a bubble diameter of 50 μm or less.Since the buoyancy is less than that of ordinary bubbles, microbubbles slowly rise by about 3mm per minute.Since they move while staying in water for a long time, they are reduced and completely dissolved. In other words, as the microbubbles are reduced and converted into nano-sized nanobubbles and gradually disappear, free radicals having an oxidizing power of 2,000 times that of ozone are generated, and therefore, odor components are decomposed to provide a deodorizing function.

Since microbubbles have excellent sterilization power, they can be used for water purification of the first treated water discharged through the treated water outlet, and can be reused after passing through a simple filtration process without a separate purification treatment.

Meanwhile, the microbubble generator 141 may exemplify generating microbubbles through a cavitation method, a pressure melting method, a turbulent shear method, a high-speed rotation stirring method, or a swirling flow method, and may be used in combination to incorporate a specific gas from the outside. . In particular, since ozone (O3) gas has a superior reactivity at high temperatures compared to low temperatures, it is effective in removing odors as well as a normal sterilization function, and the type of gas can be selected and used according to the main components of the air to be treated.

A moisture removal filter unit 150 for removing moisture in the air discharged through the air outlet 112 may be disposed between the nozzle 135 and the upper surface of the main body 110.

The moisture removal filter unit 150 includes a casing 151 detachably coupled to the main body 110, an absorbent member 152 filled in the casing 151, and an upper end of the casing 151, and / Or it may be exemplified that it is made of a net member 153 disposed at the bottom.

The casing 151 is preferably a structure that is detachably installed on the main body 110 to facilitate management such as cleaning of the absorbent member 152 and the net member 153, for example, the casing ( The 151 may be manufactured in a structure in which the body 110 is inserted on the left and right stepped jaws 115 provided on the top of the main body 110.

The absorbent member 152 may be an activated carbon, charcoal, or loess ball having fine pores capable of adsorbing moisture as well as dust, but is not limited thereto.

Hereinafter, an air purifying apparatus for a garbage treatment facility having an improved high-temperature air purifying function including dust will be described. However, detailed descriptions of the contents already described in the above-described air purification apparatus will be omitted.

Referring to Figures 1 and 2, the air purifying apparatus 100 for a high-temperature air waste treatment facility containing dust according to the present invention includes a transfer duct 160 for transporting high-temperature air containing dust generated in the waste treatment facility, and , An air inlet 111 connected to the transfer duct 160 is provided at one side, an air outlet 112 for discharging the treated air is provided at the upper end, and a treated water discharge port 113 for discharging the treated water at the lower end. ) Is provided, a water tank 120 that receives the treated water discharged from the treated water discharge port 113 and removes the precipitated slurry, and cools the treated water supplied from the water tank 120 It comprises a cooling water tank 120 and a nozzle 135 disposed above the body 110 and spraying the treated water supplied from the cooling water tank 120 into the body 110.

Here, the waste treatment facility may be a waste incinerator, a food waste dryer, etc., but is not limited thereto.

Air containing dust generated in a waste treatment facility such as the waste incinerator is supplied to the main body through a transfer duct.

The transfer duct 160 may include a light transmitting unit 161 for decomposing organic compounds contained in the transported air, and a photocatalyst unit 162. The transfer duct 160 is provided on one side so that ultraviolet rays can be transmitted through the transfer duct 160. It is more preferable that a light-transmitting part 161 made of a material such as glass or transparent plastic is provided, and the photocatalyst part 162 is a photocatalyst formed at a position corresponding to the light-transmitting part 161 of the inner surface of the transfer duct 160 The coating layer 163 may be formed of an ultraviolet lamp 165 installed on one side of the transfer duct 160 to transmit ultraviolet rays.

Since the transfer duct first decomposes and removes organic compounds, and then the dust is adsorbed and removed by the treated water in the body, the efficiency of removing dust or fine dust can be greatly increased, and at the same time, the efficiency of removing odor components in the air can be improved. .

Meanwhile, in the detailed description of the present invention and the accompanying drawings, specific embodiments have been described, but the present invention is not limited to the disclosed embodiments, and the technical idea of the present invention to those of ordinary skill in the art to which the present invention pertains. Various substitutions, modifications and changes are possible within the range not departing from. Therefore, the scope of the present invention is limited to the described embodiments and should not be defined, and should be construed as including the claims and equivalents thereof as well as the claims to be described later.

100: air purification device 110: main body
111: air inlet 111a: air
112: air outlet 113: treated water outlet
115: step 120: water tank
121: sedimentation part 121a: slurry
122: ultraviolet spectrometer 123: sludge outlet
125: solenoid valve 127: filter
128: supply unit 129: pipe for replenishing treated water
130: cooling unit 131: cooling water tank
131a: first supply pipe 131b: second supply pipe
132: pump 133: cooler
135: nozzle 135a: treated water
140: microbubble formation tank 141: microbubble generator
150: water removal filter unit 151: casing
152: absorbent member 153: net member
160: conveying duct 161: light transmitting part
162: photocatalyst unit 163: photocatalyst coating layer
165: UV lamp

Claims (6)

A main body having an air inlet at one side, an air outlet for discharging the treated air at an upper end, and a treated water outlet at the lower end for discharging the treated water; A water tank for receiving the treated water discharged from the treated water outlet and removing the precipitated slurry; A cooling unit that cools the treated water supplied from the water tank; A nozzle disposed above the main body and spraying the treated water supplied from the cooling unit into the main body; And a microbubble generator for processing the treated water that has passed through the cooling unit to contain microbubbles, and the water tank receives the treated water supplied from the treated water outlet and filters a settling part in which a slurry is settled, and a slurry of the settling part. In the air purification device that is effective in removing dust and odor, comprising a filter and a supply unit for receiving purified treated water that has passed through the filter,
The cooling unit consists of a cooling water tank and a cooler installed in the cooling water tank,
A moisture removal filter part for removing moisture in the air discharged through the air outlet is disposed between the nozzle and the upper surface of the body, and the moisture removal filter part includes a casing detachably coupled to the body, and an absorption filled in the casing. A member, characterized in that consisting of a mesh member disposed at the top and bottom of the casing, respectively, efficient air purification device for removing dust and odor. delete delete delete delete delete

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