KR20180131773A - Air cleaner using electric field - Google Patents

Abstract

According to the present invention, cationized micro foreign matter is effectively filtered by using an electric field in addition to a cyclone type dust collection. The air cleaner according to the present invention includes: a plurality of cyclone bodies (10) having a cylindrical portion for enabling introduced air to be formed into a swirling flow, and an internal supply pipe (20) installed at a center of the of cyclone bodies to supply air to be filtered to the cyclone bodies (10), wherein the cyclone body (10) is installed therein with a first electrode (12) formed in a cylindrical shape and applied thereto with an anode, and a second electrode (14) formed in a cylindrical shape on an inner surface of the cyclone body and applied thereto with a cathode to form the electric field with the first electrode (12). Therefore, the cationized fine foreign matter contained in the swirling flow inside the cyclone body falls downward after moved toward the second electrode by centrifugal force (Fc) due to the swirling flow and attractive force (Fe) due to the electric field, so that the efficiency of dust collection is increased.

Description

[0001] The present invention relates to an air cleaner using an electric field,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air cleaner, and more particularly, to an air cleaner configured to efficiently filter minute foreign matter by applying an electric field to a plurality of cyclone containers using centrifugal force.

Currently, devices for filtering foreign substances using a cyclone system are applied to various products such as air purifiers or vacuum cleaners. As described above, the cyclone dust collecting apparatus widely used as an apparatus for collecting foreign substances in the air is capable of filtering foreign matter without a separate filter through which air passes. Therefore, as a large apparatus for dust collection as well as the above- It is true that it is widely used in the field.

The basic principle of such a cyclone dust collecting apparatus is that, when a swirling flow is formed inside a substantially cylindrical cyclone body, foreign matter contained in the air to be introduced is rotated inside the cyclone body like air. The foreign matter contained in the air moves to the inner wall of the cyclone body due to the centrifugal force received by the swirling flow, falls down by gravity, and is finally collected at the lower portion of the cyclone body.

However, in the cyclone dust collector of this principle, it is said that the foreign matter up to a certain size is relatively easily filtered, but a certain limit is pointed out as to the filtering ability of the fine foreign matter. For example, it is also true that foreign matters of 5 μm or less are known to be difficult to filter in a dust collecting apparatus having a simple cyclone principle. In other words, the conventional cyclone dust collecting apparatus is effective for filtering foreign matter having a predetermined size or more. It is pointed out that there is a limit to the filtering of minute foreign matter.

In order to overcome such disadvantages, various proposals have been made to increase the dust collecting efficiency with respect to fine foreign substances by adding an electric dust collection system using a corona discharge to a cyclone dust collection system. For example, U.S. Patent No. 7,497,899 has also proposed a Cyclone dust collecting apparatus that uses such a corona discharge.

The dust collecting apparatus proposed by this prior art is configured to collect fine foreign matter using a corona discharge with respect to the cyclone system. A schematic configuration of the dust collecting apparatus using the corona discharge will be described as follows. Discharge electrodes are arranged in the vertical direction at the center of the cyclone body forming a swirling flow. A collective electrode (collective electrode) is formed on the inner surface of the cyclone body, ).

The negative electrode is applied to the discharge electrode, and the positive electrode is applied to the dust collecting electrode. When a voltage equal to or higher than the start voltage required for the corona discharge is applied between the discharge electrode and the dust collecting electrode, a corona discharge occurs in the discharge electrode. That is, a strong electric field formed around the discharge electrode is formed, and corona discharge is generated while ionizing the surrounding air molecules. These ions move to the wall along the electric field and then attach to the particles to charge the particles. The charged particles move to the wall by the centrifugal force and the electrostatic force, and are attached to the dust collecting electrode.

In this case, it is known that the centrifugal force acting on the particles is proportional to the third square of the particle size and the electric force is proportional to the square of the particle size, so that the smaller the particles, the larger the influence of the electric force on the centrifugal force becomes. Therefore, it is known that the increase of the dust collection efficiency by the electric force becomes more remarkable in the fine particles, and thus it is known that it is possible to largely compensate the general cyclone method which is advantageous for trapping substantially large particles.

According to the above-mentioned U.S. patent, when the high voltage is applied to the first and second electrode members 101 and 103 by the high-voltage generator 105, a strong magnetic force A corona discharge occurs, and the air molecules around the first and second electrode members 101 and 103 are turned into negative ions. " Of course, this explanation can be said to be the same as the charge of the particles described above.

However, in the conventional electric cyclone dust collecting apparatus including the above prior art, it is difficult to install the electric cyclone dust collecting apparatus by the internal charging method in which the discharge electrode for generating the electrostatic force is installed in the cyclone body. Due to the strong swirling flow generated in the inside, And chelating phenomenon, it is possible to form an unstable electric field at the time of corona discharge, so there is a concern that spark occurs, and it is difficult to apply in actual field in the structure. Moreover, it is somewhat lacking as a household electric appliance.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an air cleaner that efficiently filters fine foreign substances that are charged with positive ions by using an electric field with respect to a cyclonic dust collection system.

It is another object of the present invention to provide a cyclone body capable of dust collecting most efficiently while minimizing pressure loss in a cyclone dust collecting apparatus for filtering foreign matter by further using an electric field with respect to centrifugal force.

It is still another object of the present invention to provide an air purifier excellent in the efficiency of collection of cationized fine foreign matter.

It is an object of the present invention to provide an air purifier which is configured to maximize air purifying efficiency by substantially maximizing the dust collecting efficiency of the air purifier.

The air cleaner of the present invention includes a plurality of cyclone bodies each having a cylindrical portion into which air is introduced as a swirling flow and a plurality of cyclone bodies installed at a central portion of the plurality of cyclone bodies, And an air flow forming means for forming an air flow flowing from the internal supply pipe to the cyclone body.

The cyclone body includes an inlet formed at an upper portion thereof for receiving air to be filtered from an internal supply pipe and an outlet at the center of the upper surface for filtering and discharging the air introduced through the inlet to form a predetermined length downward from the upper surface A first electrode formed in a cylindrical shape on an outer surface of the vortex finder and to which an anode is applied, and a second electrode formed in a cylindrical shape on an inner surface of the cyclone body, And a second electrode that forms an electric field with the electrode.

The relatively heavy foreign matter contained in the descending swirl flow inside the cyclone body is separated from the ascending air stream in the lower portion while being moved toward the second electrode of the cyclone body by the centrifugal force. The cationized minute foreign matter contained in the swirl flow descending in the cyclone body moves to the second electrode side by the centrifugal force due to the swirling flow and the attraction force due to the electric field, and is then separated from the upward flow. According to the present invention, it becomes possible to more effectively filter the cationized minute foreign matter.

The air purifier according to another embodiment of the present invention further comprises a plurality of discharge pipes connected to the outlets of the plurality of cyclone bodies and an outlet connected to the downstream side of the plurality of discharge pipes, Forms an air flow that flows from the internal supply pipe through the plurality of cyclone bodies to the outlet portion.

The first electrode and the second electrode may be formed of a metal cylindrical member, a cylindrical coating layer, or a mesh network.

The air flow forming means of the present invention may be constituted by a blowing fan for supplying air to the internal supply pipe or a suction fan for sucking air in the outlet portion.

According to the present invention having such a constitution, it is possible to more quickly and accurately separate cationized fine foreign substances by forming an electric field in addition to the cyclone dust collecting method basically. That is, the cationized minute foreign matter is efficiently attracted to the (-) pole formed on the outside by the electric field in addition to its own weight, so that it is more easily separated from the inside of the cyclone body, thereby enabling efficient filtering Is expected.

According to the present invention, a plurality of cyclone bodies using an electric field are constituted, which is practically taken into consideration in practical use. In other words, in order to enable driving with a relatively low voltage, a plurality of small-sized units are used. Therefore, it is not only easy to be practically applied, but also has advantages in terms of application to home appliances and design change.

According to the present invention, by forming a plurality of relatively small cyclone bodies rather than a single large cyclone body, the overall pressure loss can be minimized and the electric field can be formed more efficiently by using a relatively low driving voltage And the fine particles contained in the swirling flow can be easily pulled outward.

In addition, the construction of the cyclone body according to the present invention can be understood to substantially distribute the air to the plurality of cyclone containers using the internal supply passage. In the case where air is distributed to a plurality of cyclone containers using the internal supply path as described above, it is expected that air flow can be most efficiently formed in the entire internal path of the air cleaner. Since the internal supply path of the present invention has a predetermined size (cross-sectional area, etc.), air can be more easily controlled through the internal supply path, such as filtering in advance the air passing through the internal supply path. Also, since the internal supply passage is surrounded by the cyclone body, the internal structure of the air cleaner can be expected to be advantageous in terms of design and design.

1 is an illustration of a cyclone body of the present invention.
2 is an exemplary cross-sectional view of a cyclone body of the present invention.
3 is an exemplary perspective view of an air cleaner of the present invention.
4 is an exemplary perspective view of an air cleaner of the present invention.

Before describing the embodiments of the present invention in detail, the overall principle of the present invention will be described. Since the principle of dust collection of the cyclone system is already known, it will be briefly described as follows. Air flows into the inside of the cylindrical cyclone body, and a swirling flow is generated. The swirling flow thus generated has the highest rotational speed in the middle portion of the space between the center line and the outer wall of the container, and the rotational speed becomes slower toward the outer side.

The swirling flow generated through the inlet of the upper part descends to the lower part of the cyclone body and forms a swirling flow. In the lower part, the swirling flow changes from a center of the cyclone body to a linear upward flow, . In this process, the separation of foreign matter is related to the inertia on the basis of the weight of the foreign matter. The foreign matter having its own weight continues to rotate by the inertia in the lower portion, while the relatively light air is discharged along the upward rising air stream . Therefore, it should be understood that what is referred to as self-weight in explaining the separation of foreign matter in the following description is meant to mean the meaning of inertia, and what is called inertia assumes self-weight.

The foreign substances contained in the swirling flow are pushed outward from the inside of the container by the centrifugal force. Since the rotational speed of the swirling flow is relatively low at the inner side of the cyclone vessel, the foreign matter is separated at the lowermost part of the descending swirling flow at the upward flow by the inertia, and such foreign matter is collected at the bottom of the vessel .

Since the outlet is formed at the center of the top surface of the cyclone body, when a swirling flow is generated inside the cyclone body, the upward flow toward the outlet is made linear in the vertical direction of the center line of the swirling flow, Exit through the outlet. In the present invention, in addition to the principle of the cyclone dust collection, an electric field is formed inside the cyclone, and the foreign matter that attracts positive ions by such an electric field is easily pushed outward from the inside of the container.

Because of the very light weight of very fine particulate matter, it can be continuously circulated in the swirling flow inside the vessel, and then discharged along the upward air stream created at the center of the vessel. However, if fine foreign matter can easily move from the swirling flow formed inside the vessel to the low-speed outer side (the outer side close to the inner wall of the cyclone vessel), it can be effectively filtered by sinking downward. It is paying attention. The basic idea of the present invention as described above is a completely different concept from the discharge or the like which burns foreign matter in the above-mentioned prior art.

Hereinafter, the present invention will be described in more detail based on the embodiments of the present invention shown in the drawings. 1, the cyclone body 10 of the cyclone dust collecting apparatus of the present invention comprises a cylindrical portion 2 having a predetermined diameter formed in a predetermined section in the vertical direction, And a conical portion (4) formed in a partially conical shape continuously formed. Of course, such a configuration of the cylindrical portion 2 and the conical portion 4 itself is substantially general.

The upper end of the cylindrical portion 2 has an inlet 6 through which air flows from the outside to the inside. In the illustrated embodiment, the inlet 6 is illustrated as having a rectangular cross section, and the air introduced into the body 10 through the inlet 6 forms a swirling flow within the body 10 . In other words, the inlet 6 is formed at a position eccentrically located at one side so that air introduced through the inlet 6 is formed as a swirling flow, and is widely used in a currently commercialized cyclone dust collecting apparatus. The air introduced through the inlet (6) forms a swirling flow inside the body (10) while foreign matter having a heavy specific gravity is separated from the ascending airflow below the swirling flow descending.

Since the outlet 9 is formed at the center of the ceiling, the vortex finder 8, which forms the outlet 9 of the vortex finder 8, And extends downward with respect to the upper surface of the body 10, and has a certain length s. 2, an electric field forming unit for forming an electric field between the outside of the vortex finder 8 and the inside of the body 10 is installed in the body 10 of the present invention.

In the present invention, the formation of the electric field between the vortex finder 8 and the body 10 is intended to more easily move the contaminated fine particles to the inner wall side of the body 10. That is, the swirling flow formed inside the body 10 has a maximum velocity at a specific portion in the center. By inducing the fine foreign matter to the outside portion in which the flow velocity is relatively weak in the strong swirling flow, So as to be separated from the ascending airflow by inertia

It is known that the contaminants in the modern industrial society are more likely to be contaminated by various contaminants than the contaminants. This contaminated material is positively charged by positive electricity and each one is cationized to such an extent that it is invisible. Although these cations are fine, they are obviously of size and mass. In the present invention, the contaminated and cationized fine contaminants are separated from each other by inertia after being moved to the outside with a weak flow velocity by adding centrifugal force and electric field force.

It is natural that the cationized contaminated fine particles will be attracted to the (-) electrode. 2, a cylindrical first electrode 12 is formed on the outer surface of the vortex finder 8 so as to form an electric field between the vortex finder 8 and the body 10, And a cylindrical second electrode 14 is provided on the inner surface of the cylindrical portion 2 of the body 10. [

According to the present invention, the electrodes 12 and 14 are formed on the outer surface of the vortex finder 8 and on the inner surface of the cylindrical portion 2, respectively, while being formed in a cylindrical shape. (+) Is applied to the first electrode 12 and a negative (-) electrode is applied to the second electrode 14. Therefore, it can be seen that when an electric current is applied, an electric field is formed between the electrodes 12 and 14.

It is sufficient that each of the electrodes 12 and 14 is made of a conductive material and has a cylindrical shape capable of forming an electric field therebetween by application of electricity. For example, it is also possible to provide an electrically conductive cylindrical member on the outside of the vortex finder 8 and on the inside of the cylindrical portion 2, respectively. As another embodiment, a conductive coating layer may be formed on the outer surface of the vortex finder 8 and the inner surface of the cylindrical portion 2 by using a conductive material so that a predetermined voltage can be applied It is also possible.

The first electrode 12 and the second electrode 14 may be provided in close contact with the outer surface of the vortex finder 8 and the inner surface of the cylindrical portion 2, respectively, as another embodiment of the present invention It is also possible to form a mesh network of a cylindrical shape made of a metal. When the electrodes 12 and 14 are formed of the cylindrical mesh made of metal in this way, it is expected that the formation of the electric field therebetween is more preferable.

Hereinafter, the dust collecting function in the cyclone body 10 of the present invention will be described. The air introduced through the inlet 6 forms a swirling flow inside the body 10, and this basic function is actually known. By the swirling flow formed inside the body 10, a foreign matter of a heavy mass firstly comes close to the inner side surface of the body 10 due to the centrifugal force and falls downward due to its own weight. This can be said to correspond substantially to the basic cyclone filtering function.

When an anode is applied to the first electrode 12 and a cathode is applied to the second electrode 14 according to the present invention so that an electric field is formed between the vortex finder 8 and the cylindrical portion 2, , The cationic fine particles are pulled toward the second electrode 14 to which the negative (-) electrode is applied.

That is, in the electric field atmosphere between the first electrode 12 and the second electrode 14, the cationized fine foreign substances contained in the swirling flow can be brought closer to the outside second electrode 14, . That is, as can be seen from FIG. 2, the force Fd toward the inner side surface of the body 10 is only the centrifugal force Fc of the fine foreign substance in the absence of the electric field. However, under the situation where an electric field is formed between the first electrode 12 and the second electrode 14, the force of the fine particles toward the inner surface of the body 10 is such that the centrifugal force Fc due to the swirling flow and the positive And the attractive force Fe due to the electric field attracted toward the electrode 14.

In other words, the contaminated and cationized fine foreign matter is mainly separated from the cyclone space portion (the space between the vortex finder and the body) in which the swirling flow is formed by the centrifugal force by the swirling flow, (Outer side) of the electrode 14, it can be seen that it comes closer to the inner wall of the body 10 substantially more quickly and accurately.

The close proximity of the fine foreign substances to the inner surface of the body 10 within the range of relatively small rotation angle means that the foreign matter deviates outward at the point where the strongest swirling flow is formed, It can be separated from the ascending air current rising in the swirling flow. That is, it can be seen that due to the electric field formed between the vortex finder 8 and the body 10, the cationized foreign matter moves outward with a faster time and faster path, , Or to perform more efficient filtering.

In the case of designing the air cleaner using the cyclone body 10 described above, it has been studied that the number of the cyclone bodies 10 is advantageous in various aspects, compared with the case where the cyclone bodies 10 are composed of one. For example, when an air cleaner is implemented using a single cyclone body having a large capacity, a large pressure loss is caused in a process of filtering a large amount of air in one body, resulting in a substantial pressure loss . Here, a large pressure loss is of course equivalent to the fact that the air flow is not efficiently performed.

If one cyclone body is used, it is naturally relatively large in size. Therefore, it is natural that the interval between the first electrode and the second electrode described above is set to be long. If the distance between the electrodes is relatively long as described above, a higher voltage is required to achieve the same electric field effect, and there is a concern that the applied voltage must be increased.

Also, it is more efficient to construct a plurality of cyclone bodies on the filtration side of the fine dust. When a plurality of cyclone bodies are constituted, it becomes possible to configure the overall air flow speed to flow relatively slowly, and at the same time, the distance between the electrodes becomes shorter, which is more advantageous for forming a sufficient electric field. Accordingly, the fine particles in the air that flows relatively slowly react more easily with the centrifugal force and the attractive force due to the electric field, so that the movement toward the inner side of the cyclone body is more easily performed, and the efficiency of dust collection of the fine particles is increased substantially .

In addition to the above-mentioned operational effects, it is natural that a single cyclone body is disadvantageous in terms of pressure load and noise caused by fast and strong air flow. And if it is composed of many cyclone containers, it can be said that it is very advantageous in terms of design such that it can pursue various changes in terms of design.

The air purifier of the embodiment shown in Fig. 3 is capable of substantially having the above-described action effects by using a plurality of cyclone bodies 10. As shown, it can be seen that a plurality of cyclone bodies 10 (10A, 10B, 10C, 10D, and 10E) are arranged in parallel. In the illustrated embodiment, the ten cyclone bodies 10 are arranged in a circular shape. The internal construction of each of the cyclone bodies 10 is as described above.

The air cleaner of the present embodiment includes, for example, one internal supply pipe 20 for supplying air into each cyclone body 10 in a plurality of circularly arranged cyclone bodies 10 have. That is, in the present invention, dust collection is performed using a plurality of cyclone bodies 10, and one internal supply tube 20 is used to supply air to the plurality of cyclone bodies 10. [ In the arrangement, a plurality of cyclone bodies 10 are disposed outside the internal supply pipe 20.

When the inner air tube 20 is disposed inside the plurality of cyclone bodies 10 as described above, the inner tube 20 having a predetermined cross-sectional area passes through the plurality of cyclone bodies 10, It is expected that the pressure loss can be minimized. In addition, since the internal supply pipe 20 has a substantially defined cross-sectional area and maintains a predetermined position at the time of designing, it is also expected that it is relatively easy to control the fluid flowing in the internal supply pipe 20 .

For example, it is also possible to provide a separate filter inside the internal supply pipe 20 to filter specific foreign substances. By arranging the plurality of cyclone bodies 10 on the outer side and disposing the inner supply pipe 20 in the center thereof, it is possible to effectively form the air flow, minimize the pressure loss, It is possible to expect the effect that the control of the flow can be controlled separately. Also, it is expected that the cyclone body 10 and the internal supply pipe 20 can be structured most compactly or efficiently and structurally.

As shown in FIG. 4, air can be supplied into the cyclone body 10 through the connection pipe 24 formed at the upper end 20A of the internal supply pipe 20. The air introduced into the cyclone body 10 from the internal supply pipe 20 through the connection pipe 24 is generated as a swirling flow in the inside thereof and separates fine foreign substances carrying positive ions using an electric field The predetermined air cleaning progresses by the cyclone dust collection principle as described above.

The purified air inside the cyclone body (10) is discharged to the outside through the outlet (9) of the plurality of cyclone bodies (10). The air purifier of the present invention includes a plurality of discharge pipes 30 connected to the outlet of the cyclone body 10. It is a matter of course that the discharge pipe 30 is composed of a plurality of discharge pipes 30A, 30B, 30C, 30D, 30E,... Corresponding to the number of the cyclone bodies 10. And a plurality of discharge pipes 30 are connected to one outlet portion 40 again. The air coming out through the outlet portion 40 can be said to be clean air substantially filtered not only of foreign matter but also cationized minute foreign matter.

As described above, in the air purifier of the present invention, foreign matter in the air is filtered based on the electric field and the cyclone dust collecting principle as described above while passing through the plurality of cyclonic bodies 10 in the internal supply pipe 20. And a fan for forming a flow of air flowing along the outlet portion 40 in the internal supply pipe 20 should be installed in an appropriate portion of the air cleaner of the present invention. It is also possible that the fan for forming the air flow can be constituted by a suction type fan provided at the outlet portion 40 and a blowing fan provided at the lower end portion of the internal supply pipe 20. [

When the air flow forming means (blowing fan or suction fan) operates, external air flows into the inlet 6 of the cyclone body 10 through the connecting pipe 24 from the internal supply pipe 20. The air introduced into the cyclone body 10 is formed into a swirling flow, and foreign substances contained in the air are filtered.

The main principle of the foreign matter filtering is summarized as follows. The relatively heavy foreign matter contained in the swirling flow inside the cyclone body 10 comes close to the inner side (second electrode) of the cyclone body by the centrifugal force, It falls downward. The light and cationized minute foreign matter contained in the swirling flow in the cyclone body 10 flows into the inner surface of the cyclone body by the centrifugal force Fc due to the swirling flow and the attractive force Fe due to the electric field So that it can be said that the air is separated from the point where the strongest swirling flow is formed in the inside of the body 10 and then separated from the upward airflow.

In the present invention, it is seen that the electric field is formed in the space where the swirling flow is generated by using the first electrode 12 and the second electrode 14, so that the cationized minute foreign matter is moved to the outside more quickly have. Industrial Applicability As described above, according to the present invention, by applying an electric field to a cyclone-type dust collecting principle, it is possible to collect cationized fine foreign matter and to arrange an external supply tube It can be said that there is a basic technical theme.

It will be apparent to those skilled in the art that various modifications may be made without departing from the scope of the present invention. It should be understood that the scope of protection of the present invention is to be construed on the basis of the description of the scope of claims of the patent.

2 ..... cylinder part
4 ..... cone part
6 ..... entrance
8 ..... Vortex finder
9 ..... Exit
10 ..... Cyclone body
20 ..... internal supply pipe
20A ..... upper end of the inner supply pipe
24 ..... connector
30 ..... discharge pipe
40 .... outlet

Claims (3)

A plurality of cyclone bodies 10 having a cylindrical portion in which air is introduced into a swirling flow and a plurality of cyclone bodies 10 installed at the central portion of the plurality of cyclone bodies to supply air to be filtered by each cyclone body 10 And an air flow forming means for forming an air flow flowing from the internal supply pipe to the cyclone body;
The cyclone body 10 includes an inlet 6 formed at an upper portion thereof for receiving air to be filtered from the internal supply pipe 20 and a filter 6 for filtering the air introduced through the inlet 6 A first electrode 12 formed in a cylindrical shape on the outer surface of the vortex finder 8 and to which an anode is applied, and a second electrode 12 formed on the outer surface of the vortex finder 8 and having a predetermined length from the upper surface to the lower surface. And a second electrode (14) formed in a cylindrical shape on the inner surface of the cyclone body and applied with a cathode to form an electric field with the first electrode (12);
The relatively heavy foreign matter contained in the swirling flow inside the cyclone body is separated from the upward flow by inertia while being moved toward the second electrode side of the cyclone body by the centrifugal force;
The cationized minute foreign matter contained in the swirling flow inside the cyclone body can be separated from the upward flow after moving to the second electrode side by the centrifugal force Fc by the swirling flow and by the attraction force Fe by the electric field Wherein the cyclone-type air cleaner uses an electric field having a cyclone using an electric field.
The apparatus according to claim 1, further comprising: a plurality of discharge pipes (30) connected to the outlets of the plurality of cyclone bodies; and an outlet connected to a downstream side of the plurality of discharge pipes, A cyclone-type air cleaner using an electric field that forms an air flow that flows from a plurality of cyclone bodies through an outlet to an outlet.
The air cleaner of cyclone type according to claim 1, wherein the air flow forming means uses an electric field composed of a blowing fan for supplying air to the internal supply pipe or a suction fan for sucking air in the outlet portion.

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