JP5645561B2 - Air purification device - Google Patents

Description

  The present invention relates to an air purification device, and more particularly to an air purification device provided with means for purifying air using cleaning water. Moreover, it is related with the technique which applies such an air purification apparatus to a building.

  2. Description of the Related Art Conventionally, air purification apparatuses for homes and the like use purification means such as filters in order to remove dust, odors, unpleasant gas components, and the like in the air. However, the filter is clogged and the purification ability is impaired.

  Therefore, for example, an air cleaner provided with an air cleaning means for purifying air by bringing cleaning water into contact with air as disclosed in Patent Document 1 has been proposed. In this air cleaner, a shower of cleaning water is provided in the apparatus, air taken into the apparatus from the outside is passed through the cleaning water, and air purified thereby is sent out of the apparatus.

JP-A-9-285714

  The air purifier as described in Patent Document 1 can save water by circulating and using wash water. Therefore, it is advantageous in terms of operation cost when used for home use.

However, the system for circulating the wash water in this way is configured to receive the wash water from the shower in the apparatus in a tank and send it from the tank to the shower. Therefore, chemical substances such as SO ₂ , NO ₂ , and ammonia removed from the air dissolve in the cleaning water in the water tank, and the chemical substance concentration in the circulating cleaning water increases with the operating time of the apparatus. As a result, the chemical gas re-evaporates from the washing water that comes out of the shower, and there is a possibility that the air processing capability of the apparatus is reduced. In addition, in order to deal with these problems, it became necessary to replace the washing water in the aquarium.

  Moreover, in order to use an air purification apparatus in a house, since it is advantageous in terms of cost that tap water can be used as cleaning water, such an apparatus has been desired.

  In view of the above-described problems, an object of the present invention is to provide an air purifier that can suppress the re-evaporation of a chemical substance gas dissolved in cleaning water and improve the air cleaning capability.

An air purification apparatus according to the present invention includes a casing, gas-liquid contact means for spraying and bringing cleaning water into contact with air taken into the casing, and a tank for receiving the cleaning water below the gas-liquid contact means And a circulation line for sending the cleaning water in the tank to the gas-liquid contact means. And in order to solve said subject, this invention was further equipped with the deaeration apparatus for extracting the dissolved gas component melt | dissolved in the wash water in a tank from a wash water to a gaseous phase, and discharging | emitting. It is characterized by that. And the deaeration device exhausts the gas introduced by the gas introduction means provided in the water tank, the gas introduction means for introducing the gas not containing at least the dissolved gas component into the water tank, and the outside of the water tank. The tank and the water tank share the first side wall, the water tank communicates with the tank near the bottom through an opening penetrating the first side wall, and the gas introducing means is the water tank. It is preferable that it is provided above the surface of the washing water inside.

According to the above deaeration device, dissolved gas components (chemical gas such as SO ₂ , NO ₂ , ammonia, etc.) dissolved in the wash water in the tank can be discharged out of the circulation line. As a result, re-evaporation of the chemical substance gas in the housing is suppressed.

  ADVANTAGE OF THE INVENTION According to this invention, re-evaporation of the chemical substance gas melt | dissolved in the wash water can be suppressed, and an air cleaning capability can be improved.

The schematic diagram which shows the structure of the air purification apparatus of 1st Embodiment by this invention. The schematic diagram which shows the structure of the air purification apparatus of 2nd Embodiment by this invention. The schematic diagram which shows the structure of the air purification apparatus of 3rd Embodiment by this invention.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

(First embodiment)
FIG. 1 is a schematic diagram showing a configuration of an air purification device according to a first embodiment of the present invention.

  The air purification apparatus of this embodiment has the structure described below inside the housing | casing 1, as shown in FIG. A circulation tank 2 is provided in the lower part of the housing 1, and a gas-liquid contact means 3 for purifying air and a main blower 4 are installed in this order above the circulation tank 2. Between the circulation tank 2 and the gas-liquid contact means 3, an air intake port 5 is provided on the side wall of the housing 1, and an air discharge port 6 is provided above the gas-liquid contact means 3, Air outside the housing 1 is taken into the housing 1 by the suction force of the main blower (F) 4 from the air intake 5 and flows inside the housing 1 toward the air outlet 6.

  The main blower 4 is installed in front of the air discharge port 6 and supplies the air purified by the gas-liquid contact means 3 from the air discharge port 6 to the outside of the housing 1.

  The gas-liquid contact means 3 purifies the air taken into the housing 1 from the air intake 5 by bringing it into contact with the washing water. For this reason, the gas-liquid contact means 3 has the gas-liquid contact part 31 and the water sprinkling means 32 which spreads the wash water provided above the gas-liquid contact part 31. The gas-liquid contact portion 31 includes a support (not shown) and is filled with a filler such as a Raschig ring, a lessing ring, a pole ring, a saddle, or a sulzer packing. In addition, the gas-liquid contact part 31 may be an integral type with the gas-liquid contact part 31 in which the filler is like a knitted honeycomb or a fiber. In the gas-liquid contact portion 31, the cleaning water sprayed from the sprinkling means 32 adheres to the surface of the filler, and gas-liquid contact with the air taken into the housing 1 is performed on the surface of the filler.

  The circulation tank 2 is provided below the gas-liquid contact portion 31 and is connected to a circulation pump (P) 7 through a pipe. The discharge side of the circulation pump 7 is connected to the watering means 32 through the pipe 8. The water spray means 32 is, for example, a pipe having a large number of holes, and the cleaning water is sprayed from these holes. The number, shape, and position of the holes provided in the sprinkling means 32 are not particularly limited, but it is preferable that the holes be provided so that the cleaning water can be sprayed almost uniformly. However, depending on the structure of the filler and the flow of air, the water spray amount with respect to the gas-liquid contact portion 31 may be biased. Moreover, it is preferable to provide a nozzle having a shape in which the cleaning water is sprayed as finer droplets in the holes to which the cleaning water is sprayed.

  Further, a deaeration device 9 is provided in the middle of the pipe 8 (washing water circulation line) connecting the circulation tank 2 and the water spray means 32. In particular, the deaeration device 9 according to the present embodiment includes a water chamber 91 connected to the pipe 8, an air chamber 93, and a deaeration film 94 disposed so as to partition the water chamber 91 and the air chamber 93. And a vacuum pump (VP) 92 (pressure reducing means) for reducing the pressure in the air chamber 93.

As already explained, chemical gases such as SO ₂ , NO ₂ , and ammonia removed by the gas-liquid contact portion 3 during air cleaning (hereinafter sometimes referred to as “dissolved gas components”) are used to wash the circulation tank 2. If it accumulates in water, there is a possibility that the chemical gas re-volatilizes in the housing 1 when the cleaning water is sprayed. Therefore, by providing the degassing device 9 described above, when the cleaning water is circulated through the pipe 8, the air chamber 93 is decompressed by the vacuum pump 92, and the cleaning water in the water chamber 91 is passed through the degassing membrane 94. Can be degassed. By depressurizing the air chamber 93, a difference in atmospheric pressure occurs between the air chamber 93 and the water chamber 91, and dissolved gas components dissolved in the wash water are degassed to the air chamber 93 side where the gas partial pressure is low. Move through. Thereby, the dissolved gas component dissolved in the wash water in the circulation tank 2 can be extracted from the wash water into the gas phase and discharged, and the re-evaporation of the chemical gas in the housing 1 is suppressed. Can do.

  The gas permeable membrane used as the deaeration membrane 94 is not particularly limited, and examples thereof include a polypropylene membrane, a polydimethylsiloxane membrane, a polycarbonate-polydimethylsiloxane block copolymer membrane, and a polyvinylphenol-polydimethylsiloxane-polysulfone block copolymer. Examples thereof include a film, a poly (4-methylpentene-1) film, a poly (2,6-dimethylphenylene oxide) film, and a polytetrafluoroethylene film.

  The vacuum pump 92 may be replaced with an ejector, and the suction port of the ejector may be connected to the air chamber 93 to reduce the pressure in the air chamber 93.

  According to the present invention, it is possible to suppress the re-evaporation of the chemical substance gas dissolved in the cleaning water, improve the air cleaning capability, and reduce the frequency of replacement of the cleaning water.

(Second Embodiment)
FIG. 2 is a schematic diagram showing a configuration of an air purification device according to a second embodiment of the present invention. In this figure, the same reference numerals are used for the same components as in the first embodiment, and the description of the same components is omitted here and is the same as in the first embodiment. Hereinafter, the points changed from the first embodiment will be described.

In the present embodiment, a vacuum pump 92 (decompression unit) for depressurizing the inside of the air chamber 93 is provided in the deaeration device 9 provided in the pipe 8 (circulation line) for circulating the cleaning water for purifying the processing target air. Not provided. Instead, high-purity gas such as high-purity Air or N ₂ gas from one end of the air chamber 93 (for example, Air or N ₂ gas containing at least almost no ammonia when removing ammonia from the wash water) Is introduced into the air chamber 93 and discharged from the other end side of the air chamber 93. Therefore, a high purity gas introduction pipe 95 is connected to one end of the air chamber 93, and an exhaust pipe 96 is connected to the other end of the air chamber 93. That is, in this embodiment, the deaeration device includes a water chamber 91, an air chamber 93, a deaeration membrane 94, a high-purity gas introduction pipe 95, and an exhaust pipe 96. The high purity gas introduction pipe 95 and the exhaust pipe 96 are not limited to rigid pipes, and may be flexible tubes or the like.

Also in the present embodiment, as in the first embodiment, the chemical gas such as SO ₂ , NO ₂ , and ammonia removed by the gas-liquid contact portion 3 during air cleaning is dissolved in the cleaning water, so The cleanliness of the wash water decreases with time. However, in the present embodiment, N ₂ gas or Air that does not contain chemical gas dissolved in the cleaning water is constantly passed through the air chamber 93, so that dissolved gas components dissolved in the cleaning water are not present. Then, the gas moves to the air chamber 93 side having a low gas partial pressure through the deaeration film 94. Thereby, the dissolved gas component dissolved in the wash water in the circulation tank 2 can be extracted from the wash water into the gas phase and discharged, and the re-evaporation of the chemical gas in the housing 1 is suppressed. Can do.

In the present embodiment, high-purity N ₂ gas or Air is ventilated into the air chamber 93. However, for example, outside air is taken in for a house, and the purified air is introduced into the house after purification by this apparatus. In the case of the system, the air in the house can be vented to the air chamber 93.

(Third embodiment)
FIG. 3 is a schematic diagram showing a configuration of an air purification device according to a third embodiment of the present invention. In this figure, the same reference numerals are used for the same components as in the first embodiment, and the description of the same components is omitted here and is the same as in the first embodiment. Hereinafter, the points changed from the first embodiment will be described.

In this embodiment, the deaeration device 9 having the deaeration film 94 is not provided in the pipe 8 for circulating the cleaning water. Instead, as shown in FIG. 3, a water tank 10 is connected to the side of the circulation tank 2 constituting the bottom of the housing 1, and the vicinity of the bottom surface of the circulation tank 2 and the water tank 10 communicates with each other by a communication part 11. Yes. Thus, the wash water descending from the gas-liquid contact means 3 is distributed not only in the circulation tank 2 but also in the water tank 10. At this time, the wash water stored in the circulation tank 2 and the water tank 10 has the same water level, but the water level is located above the communication portion 11 and is not allowed to pass air at the communication portion 11. ing. Further, a chimney-shaped exhaust part 12 is formed on the upper part of the water tank 10 by partially using the side wall of the housing 1. A high purity gas introduction pipe 13 is connected to the side wall of the exhaust unit 12 near the surface of the cleaning water in the water tank 10, and a high purity gas such as high purity Air or N ₂ gas (for example, ammonia from the cleaning water). When air is desired to be removed, air or N ₂ gas that does not contain at least ammonia is introduced so as to be brought into contact with the cleaning water in the water tank 10. Then, the N ₂ gas and the like after coming into contact with the cleaning water in the water tank 10 is configured to be discharged out of the air purification device through the exhaust part 12 as exhaust gas. Such a water tank 10 having the communication port 11, the exhaust part 12, and the high-purity gas introduction pipe 13 constitute a deaeration device.

  Further, in FIG. 3, the housing 1 and the water tank 10 are integrated (a form in which a part of the side walls of the housing 1 and the water tank 10 are common). It may be connected.

Also in the present embodiment, as in the above-described embodiment, the chemical gas removed by the gas-liquid contact portion 3 during air cleaning is dissolved in the cleaning water, so that the cleanliness of the cleaning water in the circulation tank 2 and the water tank 10 is long. Decreases with. However, in this embodiment, N ₂ gas, Air, or the like that does not contain chemical substances dissolved in the cleaning water is always in contact with the cleaning water in the water tank 10 that is in communication with the circulation tank 2. For this reason, the dissolved gas component dissolved in the washing water moves to the air chamber 93 side having a low gas partial pressure through the deaeration film 94. Thereby, the dissolved gas component dissolved in the wash water in the circulation tank 2 can be extracted from the wash water into the gas phase and discharged, and the re-evaporation of the chemical gas in the housing 1 is suppressed. Can do.

  In the case of this embodiment, since the gas permeable membrane as the deaeration membrane 94 is not used as in the first and second embodiments, the maintenance of the apparatus is easy.

(Other embodiments)
When the air purification apparatus of each embodiment mentioned above is applied to the house which is a building, the method of installing the air purification apparatus outside a house and the method of installing inside a house are considered.

  When the air purification apparatus of the present invention is installed outside the house, the air intake port 5 takes in air outside the house, and the air discharge port 6 supplies the air purified in the air purification apparatus to the inside of the house. It communicates with the interior of the house. It is preferable that the portion that discharges the dissolved gas component removed by the deaeration device 9 is kept away from the air intake 5 outside the house.

  On the other hand, when the air purification apparatus of the present invention is installed inside the house, the air intake port 5 takes in the air inside the house, and the air discharge port 6 discharges the air purified in the air purification apparatus to the inside of the house. A portion for discharging the dissolved gas component removed by the deaeration device 9 extends from the inside of the house to the outside.

  As described above, the air purification apparatus of the present invention not only improves the air cleaning ability, but also can use domestic tap water as cleaning water for purifying air and circulate the cleaning water. The operating cost is very low.

  In addition, the air purification apparatus of the present invention can be air-conditioned by being equipped with means for adjusting the humidity of the air taken into the housing and means for adjusting the temperature.

DESCRIPTION OF SYMBOLS 1 ... Housing 2 ... Circulation tank 3 ... Gas-liquid contact means 31 ... Gas-liquid contact part 32 ... Sprinkling means 4 ... Main blower 5 ... Air intake 6 ...・ Air discharge port 7 ... Circulating pump 8 ... Piping (circulation line)
9 ... Deaerator 91 ... Water chamber 92 ... Vacuum pump (pressure reduction means)
93 ... Air chamber 94 ... Degassing membrane (gas-liquid permeable membrane) 95 ... High-purity gas introduction pipe 96 ... Exhaust pipe 10 ... Water tank 11 ... Communication port 12 ... Exhaust Part 13: High purity gas introduction pipe

Claims (1)

A housing,
Gas-liquid contact means for spraying and contacting cleaning water to the air taken into the housing;
A tank for receiving the washing water below the gas-liquid contact means;
A circulation line for sending the wash water in the tank to the gas-liquid contact means;
Have
The dissolved gas components dissolved in the washing water in the tank was extracted into the gas phase from the wash water, further example Bei degassing device for discharging,
The deaeration device includes:
A tank,
Gas introduction means for introducing a gas not containing at least the dissolved gas component into the water tank,
An exhaust section provided in the water tank for exhausting the gas introduced by the gas introduction means to the outside of the water tank,
The tank and the water tank share a first side wall,
The water tank communicates with the tank in the vicinity of the bottom surface through an opening penetrating the first side wall,
The air purifier according to claim 1, wherein the gas introducing means is provided above a surface of the washing water in the water tank .

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