JP2016107193A - Air cleaner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To solve the problems of a conventional air cleaner, specifically, low efficiency and the incapability of generating many minus ions while air can be cleaned by utilizing the function of corona discharging.SOLUTION: The air cleaner for absorbing and collecting dusts of substances flying in air by using a plus electrode and a minus electrode is characterized in that the plus electrode is a plate-like electrode 2 made of a conductive synthetic resin, such plus electrodes are arranged oppositely to each other to be set roughly in parallel to the flow of ion wind, a brush-like minus electrode 1 made of a conductive material is disposed between the conductive synthetic resin plate-like plus electrodes provided oppositely to each other, a high voltage is applied between the plus electrode made of the conductive synthetic resin and the brush-like minus electrode to generate corona discharging, thereby generating ion wind, surrounding air circulates between these electrodes, micro particles included in the air are stuck to the plus electrode 2 made of the conductive synthetic resin plate, and thus particles and dusts can be efficiently absorbed and collected.SELECTED DRAWING: Figure 1

Description

  In the present invention, by applying a high voltage of 6 KV to 8 KV between the positive electrode and the negative electrode, ion wind is generated by corona discharge, and dust such as PM2.5 and pollen containing radioactive substances floating in the air. It is an air purifier that adsorbs.

  Conventionally, a counter electrode and a discharge electrode are used, and a high voltage is applied to the discharge electrode to generate a corona discharge between the counter electrode and the discharge electrode, thereby adsorbing and collecting floating substances (dust and dust) in the air. In the dust collecting / deodorizing apparatus, the counter electrode is a plate electrode, and the plate electrode is disposed so as to be parallel to the air flow by the fan, and the acicular discharge is provided between a plurality of the counter electrodes. Electrodes are disposed and discharged by applying a high voltage to the discharge electrode, corona discharge is generated, and air is passed between the electrodes by air blown by a fan, and dust or dust contained in the air is applied to the counter electrode. There exists a dust collecting / deodorizing device (see, for example, Patent Document 1).

Japanese Laid-Open Patent Publication No. 1-171664 (refer to the claims, detailed description of the invention, and FIGS. 1 to 3)

However, the conventional air cleaner has the following drawbacks.
Although airborne substances (dust and dust) can be adsorbed and collected by using the action of corona discharge, the negative ion generation efficiency is low and the effect of purifying the air is weak.
Further, since ozone is generated, there is a problem in that the counter electrode (plus electrode) is oxidized with the passage of time to generate rust.
The air cleaner of the present invention solves the above-mentioned drawbacks, and the minus electrode employs a stainless steel fiber planted in a brush shape on a support plate, and the plus electrode is formed in a plate shape made of conductive synthetic resin. By adopting an electrode, it has been found that the positive electrode is not affected by ozone and can be prevented from being oxidized and corroded over time. Further, what can be considered as a solution to the above-mentioned drawbacks is that the positive electrode is formed into a plate-like oxide glass composition containing vanadium, barium and iron, but it is expensive and the electric resistance is adjusted. Is difficult. The present invention aims to solve the above problems.
In consideration of these, negative ions are necessary for air purification. When the negative ions are generated, ozone is generated at the same time. Since this ozone affects the human body, it is better to use less ozone. In addition, due to the generation of ozone, the plate-like positive electrode is oxidized to cause corrosion, which has an adverse effect of inhibiting corona discharge, and it is necessary to prevent this. Thus, various materials for the plate-like positive electrode were tested and the most suitable one was found at a low price. The present invention adopts a combination of the positive electrode made of conductive plastic resin and the negative electrode made of brush-like electrode. I found out.

The first aspect of the present invention is an air cleaner as set forth in claim 1 and is as follows.
In an air cleaner that uses a positive electrode and a negative electrode, applies a high voltage to the negative electrode to generate a corona discharge between the positive electrode and the negative electrode, and adsorbs and collects suspended solids in the air. Is a plate-like electrode formed of a synthetic resin having conductivity, and the positive electrode is opposed to each other, and is arranged substantially parallel to the flow of ion wind. Disposed by applying a high voltage between the plus electrode made of conductive synthetic resin plate and the brush-like minus electrode. Ion wind is generated by generating corona discharge, the surrounding air circulates between the electrodes, and fine dust contained in the air adheres to the positive electrode made of the conductive synthetic resin plate, thereby improving efficiency. Ku is a configuration in which to be able to adsorb dust collecting dust.

Since the air cleaner according to the present invention has the configuration as described above, the following effects are achieved.
(1) Ozone is generated due to corona discharge. When the plus electrode is made of a metal plate by the ozone, rust is prevented from being generated. Further, in the case of titanium, discoloration or processing is difficult, but this can be solved by the present invention.
(2) Oxygen generation can be suppressed as a result of the test by forming stainless steel fibers on the negative electrode in a brush shape with respect to the support plate.
(3) A small amount of ozone is required to clean the air, but ozone is considered harmful to the human body, so it is necessary to suppress the generation of ozone as much as possible. .
(4) In the corona discharge, the use of a positive electrode made of a conductive plastic plate increases the generation of negative ions, and the positive electrode of the conductive plastic plate efficiently removes suspended matter in the air, that is, fine dust. Can be adsorbed. Furthermore, it is easy to clean because it is plate-shaped.
(5) In corona discharge, the use of a positive electrode made of a conductive plastic plate and a brush-like negative electrode made of stainless fiber increases the generation of negative ions. The suspended matter in the inside, that is, fine dust, for example, PM2.5 and pollen can be adsorbed efficiently.
(6) Corona discharge generates an ionic wind from the negative electrode to the positive electrode, and this ionic wind blows out to the front and can stir the air around the air purifier. Can be adsorbed.
(7) In the corona discharge, between the negative electrode and the positive electrode, a combination of a sharp electrode and a plate-like electrode improves discharge efficiency.
(8) Since the structure is simple, cleaning and maintenance are easy.

It is a schematic front view which shows the air cleaner of this invention. It is a schematic side view which shows the air cleaner of this invention. It is a schematic plan view which shows the air cleaner of this invention. It is a schematic front view which shows the assembly state of the brush-shaped electrode which is a minus electrode of this invention. It is a schematic front view which expands and shows the assembly state of the brush-shaped electrode which is a minus electrode of this invention. It is a schematic plan view which shows the air cleaner of this invention.

  In an air cleaner that uses a positive electrode and a negative electrode, applies a high voltage to the negative electrode to generate a corona discharge between the positive electrode and the negative electrode, and adsorbs and collects suspended solids in the air. Is a plate-like electrode formed of a synthetic resin having conductivity, and the positive electrode is opposed to each other, and is arranged substantially parallel to the flow of ion wind. Disposed by applying a high voltage between the plus electrode made of conductive synthetic resin plate and the brush-like minus electrode. Ion wind is generated by generating corona discharge, the surrounding air circulates between the electrodes, and fine dust contained in the air adheres to the positive electrode made of the conductive synthetic resin plate, thereby improving efficiency. Ku is an air cleaner that is to be able to adsorb dust collecting dust.

Embodiments of the present invention will be described below with reference to the drawings.
The present invention is an air purifier that adsorbs dust using corona discharge generated by applying high voltage between dust and positive electrodes (fine dust containing PM2.5 and pollen) floating in the air. Related to the machine.
First, consider what is needed to stabilize corona discharge.
The first purpose of corona discharge is to generate negative ions, and the second is to generate ozone gas with a deodorizing function.
Ozone gas has a strong oxidizing power, and oxidation of the negative electrode occurs, thereby inhibiting corona discharge. In order to prevent this, in the present invention, the electrode is oxidized by adopting a minus electrode made of a plurality of brushed stainless fibers on the support plate and a plus electrode made of a plate-like conductive synthetic resin. Therefore, it can be used very effectively for a long time.

測定条件、マイナス電極は、タングステン針で、直径１．６ｍｍφで先端は、２０μｍφの形状で、８本を使用、またはステンレスブラシ（繊維は９５００本）で電極は可能な限り細ければ細い程良いが、例えば１２μｍ〜１４μｍのステンレス繊維を、例えば９０〜１００本（束ねる本数は、電極の径によって種々選択できる）を束ねて１ｍｍ間隔で１列に並べ、長さを例えば２００ｍｍ長（長さは、空気清浄機の大きさによって種々選択できる）にブラシ状としたものを使用し、プラス電極は導電性ガラス電極、またプラスチック電極を使用したものでの測定結果である。
第１の材料の組み合わせは従来のもので、マイナス電極をタングステン針、プラス電極を導電性ガラス板としてデータを取ると、イオン｛百万個｝（ａ）は、０．３４０、オゾン｛ｐｐｂ（１０億分率）｝（ｂ）は、１１１．０００、イオン（ａ）とオゾン（ｂ）の割合は、１０００倍にして、３．０６３である。
次に、第２の材料の組み合わせは、マイナス電極はタングステン針、プラス電極は１ｋΩの導電性プラスチック電極板でデータを取ると、イオン｛百万個｝（ａ）は、０．３８２、オゾン｛ｐｐｂ（１０億分率）｝（ｂ）は、４３．７００、イオン（ａ）とオゾン（ｂ）の割合は、第１の組み合わせと同様に１０００倍して、８．７４１である。
第３の材料の組み合わせは、マイナス電極にステンレスブラシ電極、プラス電極に１ｋΩの導電性ガラス電極板でデータを取ると、イオン｛百万個｝（ａ）は、０．４９８、オゾン｛ｐｐｂ（１０億分率）｝（ｂ）は、５１．０００、イオン（ａ）とオゾン（ｂ）の割合は、第１の組み合わせと同様に１０００倍して、９．７６５である。
第４の材料組み合わせは、本発明のマイナス電極をステンレスブラシ電極、プラス電極を１ｋΩの導電性プラスチック電極板でデータを取ると、イオン｛百万個｝（ａ）は、０．５３４、オゾン｛ｐｐｂ（１０億分率）｝（ｂ）は、５０．９００、イオン（ａ）とオゾン（ｂ）の割合は、第１の組み合わせと同様に１０００倍して、１０．４９１である。
この実験データを考察すると、コロナ放電において各電極材料の組み合わせによる、マイナスイオンとオゾンの比をとり、その値が大きい程、高性能となっていることが確認できる。
すなわち、マイナスイオンとオゾンの比は最大３倍である。この３倍の要因はマイナス電極の種類によるもので、針とブラシの違いが、この結果として表れているものと考えられる。
以上の結果からも理解できるように、従来の第１の材料の組み合わせのものと比較でマイナスイオンは多く、オゾンは少ない組み合わせは、本発明における第４の組み合わせが最適であることが証明された。 Here, the negative electrode and the positive electrode were combined in different materials, and the generation of negative ions and ozone gas was investigated and confirmed.
If we describe specific experimental data for conditions such as power consumption and high voltage value, and the measurement with the same discharge gap between the negative electrode and the positive electrode, the negative ions and ozone gas produced by the material combination of the negative electrode and the positive electrode A comparative test was attempted for outbreaks.
As shown in Table 1, the results of this test were confirmed to be as follows. The condition is the same as that for AC power 4W.

Measurement condition, negative electrode is tungsten needle, diameter is 1.6mmφ, tip is 20μmφ shape, use 8 pieces, or stainless brush (9500 fibers), the electrode should be as thin as possible However, for example, stainless steel fibers of 12 μm to 14 μm are bundled, for example, 90 to 100 (the number to be bundled can be variously selected depending on the diameter of the electrode) and arranged in one row at intervals of 1 mm, and the length is, for example, 200 mm long (length is , Which can be selected depending on the size of the air purifier), a brush-shaped one is used, and the plus electrode is a measurement result using a conductive glass electrode or a plastic electrode.
The combination of the first materials is a conventional one. When data is taken using a negative electrode as a tungsten needle and a positive electrode as a conductive glass plate, ions {million} (a) is 0.340, ozone {ppb ( 1 billion fraction)} (b) is 111.000, and the ratio of ions (a) to ozone (b) is 3.063, 1000 times.
Next, when the data of the second material combination is a tungsten needle for the negative electrode and a conductive plastic electrode plate of 1 kΩ for the positive electrode, the ion {million} (a) is 0.382, ozone { ppb (parts per billion)} (b) is 43.700, and the ratio of ions (a) to ozone (b) is 8.741, multiplied by 1000 as in the first combination.
As for the combination of the third material, when taking data with a stainless brush electrode as a negative electrode and a 1 kΩ conductive glass electrode plate as a positive electrode, ions {million} (a) is 0.498, ozone {ppb ( 1 billion fraction)} (b) is 51.000, and the ratio of ions (a) and ozone (b) is 9.765, multiplied by 1000 as in the first combination.
According to the fourth material combination, when the negative electrode of the present invention is taken with a stainless brush electrode and the positive electrode with a 1 kΩ conductive plastic electrode plate, ions {million} (a) is 0.534, ozone { ppb (1 billion fraction)} (b) is 50.900, and the ratio of ions (a) and ozone (b) is 10.491, multiplied by 1000 as in the first combination.
Considering this experimental data, it can be confirmed that the higher the value of the ratio of negative ions to ozone in the corona discharge by the combination of each electrode material, the higher the performance.
That is, the ratio of negative ions to ozone is up to 3 times. The factor of three times is due to the type of the negative electrode, and it is considered that the difference between the needle and the brush appears as a result.
As can be understood from the above results, it has been proved that the fourth combination in the present invention is optimal for the combination having more negative ions and less ozone compared to the conventional combination of the first material. .

Next, the configuration of the first embodiment will be described in detail with reference to FIGS.
1 is a schematic front view showing an air cleaner of the present invention, FIG. 2 is a schematic side view of FIG. 1, FIG. 3 is a schematic plan view showing the air cleaner of the present invention, and FIG. 4 is a negative electrode of the present invention. FIG. 5 is a schematic front view showing an enlarged assembly state of a brush-like electrode which is a negative electrode of the present invention, and FIG. 6 is a schematic view showing an air cleaner of the present invention. It is a top view.
As shown in FIGS. 1 to 5, the air cleaner according to the first embodiment of the present invention is made of stainless steel brush-like electrode 1 which is a negative electrode for charging dust floating in the air and made of stainless steel. And a dust collecting device comprising a plate-like electrode 2 made of a conductive plastic plate which is a plus electrode for adsorbing and collecting charged dust.
The stainless steel brush-like electrode 1 which is a negative electrode is a brush-like discharge electrode made of a stainless steel wire wire to which a high voltage (about 6 KV) is applied.
The plate-like electrode 2 is made of polypropylene resin and conductive acrylonitrile butadiene styrene resin kneaded with carbon black, or a resin having conductivity formed by mixing polypropylene resin and acrylonitrile butadiene styrene resin. It is composed of a conductive plastic plate, and is composed of a positive electrode provided oppositely.
Corona discharge is generated by applying a high voltage of 6 KV to 8 KV between the brush-like electrode 1 made of stainless steel as the negative electrode and the conductive plastic plate-like electrode 2 as the positive electrode. By this corona discharge, fine dust containing radioactivity in the air is attached to the plate-like positive electrode 2 made of conductive plastic. Further, an ion wind is generated from the brush electrode 1 made of stainless steel, which is a negative electrode, toward the plastic plate electrode 2 which is a positive electrode, and this ion wind is blown to the front to stir the air around the air cleaner of the present invention. . The dust in the stirred air is ionized by the ion wind and the charged dust is collected on the positive electrode 2 made of a conductive plastic plate, so that purified air is blown out.

Next, each component will be specifically described.
As shown in FIG. 6, the conductive plastic plate electrode 2 as a positive electrode is grounded, and a high voltage (for example, −6 KV) is applied to the negative electrode brush-like electrode 1 formed of stainless steel. Generate a discharge. By this corona discharge, negative ions are generated, and fine dust floating in the air adheres to the plastic plate electrode 2 that is a positive electrode. At the same time, an ionic wind is also generated by corona discharge, and this ionic wind is released as a blown-out air of the air cleaner of the present invention.
The high-voltage power supply unit 3 that generates high voltage generates minus 6 to 7 KV necessary for corona discharge and sends it to the brush-like electrode 1 made of stainless steel as a minus electrode.

Here, the material and shape of the plastic plate electrode 2 that is a plus electrode will be described.
The material used is a conductive acrylonitrile butadiene styrene resin made of polypropylene resin kneaded with carbon black, or a mixture of polypropylene resin and acrylonitrile butadiene styrene resin mixed with conductive resin. It is.
As shown in FIG. 1 to FIG. 3, the arrangement shape is such that the plastic plate-like electrodes 2 that are plus electrodes are provided in parallel and opposite to each other.
The material and shape of the brush electrode 1 that is a negative electrode will be described.
As shown in FIGS. 4 and 5, the material is a bundle of 90 to 100 stainless steel fibers of 12 μm to 14 μm, arranged in a row at 1 mm intervals and made into a brush shape with a length of 200 mm. About 9,500 are used.

Next, a first embodiment of the present invention will be described.
In the first embodiment of the present invention, a plus electrode is formed by forming a plastic plate electrode 2 made of conductive plastic into a plate shape and facing each other as shown in FIG. 3, and the plus electrodes are arranged facing each other. The negative electrode for applying a high voltage toward the intermediate portion is formed by the stainless steel brush-like electrode 1.

  It can also be used for an air decontamination machine, a deodorizing device, a deodorizing device, an ozone generator and the like.

1 ... Stainless steel brush electrode 2 ... Plastic plate electrode 3 ... High voltage power supply

Claims (1)

In an air cleaner that uses a positive electrode and a negative electrode, applies a high voltage to the negative electrode to generate a corona discharge between the positive electrode and the negative electrode, and adsorbs and collects suspended solids in the air. Is a plate-like electrode formed of a synthetic resin having conductivity, and the positive electrode is opposed to each other, and is arranged substantially parallel to the flow of ion wind. Disposed by applying a high voltage between the plus electrode made of conductive synthetic resin plate and the brush-like minus electrode. Ion wind is generated by generating corona discharge, the surrounding air circulates between the electrodes, and fine dust contained in the air adheres to the positive electrode made of the conductive synthetic resin plate, thereby improving efficiency. Ku air purifier, characterized in that it has to be able to adsorb dust dust.

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