KR0161048B1 - Room air cleaner using ionizing wind - Google Patents

Abstract

The present invention relates to an indoor air purifier using ion wind.

When the air cleaner using the conventional ion wind is installed in a room or the like, there is a problem in that ions generated in the ion generating unit discharge ions that charge the first electrode body to the wall and thus impede the flow of the ion wind.

The present invention provides a flow of ion wind by employing means capable of repulsing ions of the same polarity as the discharge electrode by installing a discharge electrode and a reverse polarity ion repulsion electrode upstream from the discharge electrode for the purpose of correcting such a conventional problem. It is not discharged toward the wall even if it is close to the wall without any obstacles, and the air blower that causes the ion wind can be reduced in size and weight.

Description

Indoor Air Purifier Using Ion Wind

1 is an illustration of an air cleaner in which a part of the present invention is cut out.

2 is an exemplary view of an indoor air cleaner of the present invention.

3 is a cross-sectional view of the air cleaner of the present invention.

4 is an exemplary diagram in which the apparatus of FIG. 2 is installed indoors.

5 is a schematic diagram illustrating the principles of the present invention.

* Explanation of symbols for the main parts of the drawings

1: discharge electrode 2a: counter electrode

3a, 3b: dust collecting electrode 4: ion repulsive electrode

6,7 high voltage power supply 10 case

10A, 10B: Air inlet 10C: Air outlet

The present invention relates to an indoor air purifier using ion wind effective as a backwind means of an air purifier.

It is well known that when a high voltage is applied between a first electrode body, which is a discharge electrode, and a second electrode body, which is disposed to face the electrode, a corona discharge is generated from the first electrode body toward the second electrode body. It is true.

In other words, the air near the first electrode body is ionized by the corona discharge, and the ions move toward the second electrode body by the electrostatic force. In the course of this movement, a number of heavy constituents are emitted and induced by the flow of molecules, the wind.

This ion wind has a wind speed of several meters per second, and a sufficient amount of air can be obtained according to the method of use. In addition, the dust in the air during the corona discharge is also ionized to have a capacitive dust collection function to collect the dust on the second electrode body. When the ion wind generated by this phenomenon is used, the blower and the dust collector are integrated without using a blower having a fan and a motor, and it is possible to reduce the size and weight of the air cleaner. In addition, since there is no movable part and the duct can be installed freely, the shape design is free when using it as an air cleaner, and the small type can be easily designed.

However, as a result of specific research and testing on the miniaturization of the air cleaner using the ion wind, it is necessary to reduce the generation portion of the ion wind, and the wall of the duct composed of the first electrode body and the insulator having a small diameter as the discharge electrode. It was confirmed that the interval with the tooth could not be sufficiently taken.

In such an ion wind generator, since the ions having electrodes opposite to the second electrode body among the ions generated in the vicinity of the first electrode body generate an ion wind by the second electrode body, charge is applied to the second electrode body. do.

On the other hand, the ions having the opposite polarity to the ions charge the first electrode body to form an electric circuit including a power source.

However, as described above, when the distance between the first electrode body and the wall is close, it has been found that ions that charge the first electrode body move toward the wall (capacity in terms of earth potential). At this time, since the moving direction has the same polarity as that of the second electrode body, the moving direction moves in the opposite direction to the second electrode body, that is, in the opposite direction to the ion wind.

On the other hand, ions attracted in the direction of the second electrode body also move toward the wall. Therefore, in the vicinity of the wall, the flow of ions flows not only in the direction of the second electrode body but also in the opposite direction, thereby preventing the flow of the ion wind and in the worst case, the backflow phenomenon occurs.

It is an object of the present invention to provide a compact and compact ion wind blowing device effective as a means for generating wind of an air cleaner using ion wind without the turbulence of ion wind in the vicinity of the discharge electrode.

In the present invention, in order to correct the above problems and achieve the object of the present invention, a means for repelling the discharge electrode and the same polar ion is provided by discharging the discharge electrode and the reverse polarity ion repelling electrode from the discharge electrode upstream.

Hereinafter, an embodiment of the present invention will be described in detail.

1 is an exemplary view showing a basic configuration of an embodiment of the present invention.

As shown, 1 is a discharge electrode composed of platinum wire having a micro diameter in microns, and is soldered to an electrode plate 1b such as stainless steel fixed to both ends of a frame 1 composed of an insulator such as a resin by an adhesive or the like. Plural pieces are attached at regular intervals.

2a is a counter electrode composed of a wire such as copper wire of tin plating having a fine diameter in microchrome units, and is fixed to the frame 2 in the same manner as the discharge electrode.

The discharge electrode frame 1 and the counter electrode frame 2 are arranged at a predetermined discharge interval in the duct 5 made of an insulator such as synthetic resin. Further, the ion repelling electrode 4 is provided on the side opposite to the counter electrode frame 2 with respect to the frame 1 of the discharge electrode and upstream of air than the discharge electrode 1a. The ion repelling electrode 4 is provided with a metal frame such as stainless steel at regular intervals.

A dust collecting electrode frame 3 is provided on the air downstream side of the counter electrode 2a, i.e., opposite to the discharge electrode 1a, and the frame 3 is composed of a plurality of electrode plates 3a and 3b. A dust collecting electrode is attached.

6 is a fixed voltage power supply for ion generation, the electrode side of which is connected to the counter electrode 2a, and the + electrode side of which is connected to the discharge electrode 1a and grounded at the same time. 7 is an ion repulsion power supply for both a collecting electrode and the electrode side is connected to the ion repelling electrode 4, and is connected to one electrode plate 3a for the collecting electrode.

The + electrode side is provided in the discharge electrode 1a. Also, the other side of the dust collecting electrode is grounded.

The ion repelling electrode, the discharge electrode, the counter electrode, and the dust collecting electrode configured as described above are sequentially installed in the plastic case 10 from the air suction port 10A toward the air outlet 10B.

2 and 3 are indoor air cleaners using an embodiment of the present invention.

As shown in FIGS. 2 and 3, the air cleaner of the present invention forms the synthetic resin case 10 in a flat equilibrium, and the ion wind generating and dust collecting parts installed therein are symmetrical around the power supply unit 6. Although it is configured to be installed indoors, Figure 4 shows a state in which the air cleaner of the present invention attached to the room (11).

Inside the air intakes 10A and 10B, the ion repelling electrode, the discharge electrode, the counter electrode, and the dust collecting function (3a) (3b), which increase the ion blowing device, from the upstream to the downstream of the air, respectively, are provided with a power source (6) (7). Is placed in between.

In addition, the dust collecting electrode is detachably mounted.

In addition, an air outlet 10C is opened at the bottom of the case 10 of the air purifier to allow purified air to flow out into the room.

In the ion generating unit, the ion repelling electrode 4 is spaced apart from the discharge electrode 1a and the counter electrode 2a or spaced apart from the discharge electrode.

In addition, the voltage supplied to the ion repelling electrode (4) supplies a voltage in the middle of the voltage between the discharge electrode and the counter electrode, but 1/4 to 1/2 of the voltage required for this discharge is suitable, preferably for dust collection It is better to be shared with the field formation voltage.

Referring to the operation of the embodiment of the present invention as follows.

As shown in FIG. 1 and FIG. 5, when a high voltage is supplied between the discharge electrode 1a and the counter electrode 2a by the power supply 6, an unbalanced electric field is caused by the difference between the electrode wire diameters (40 μ and 400 μ). An electric field is concentrated around the 40μ discharge electrode 1a which is formed between both electrodes and is sharp in shape, and corona discharge occurs.

The positive or positive bipolar ions are generated by the corona discharge, but most of the negative ions having the opposite polarity to the discharge electrode 1a are absorbed by the discharge electrode 1a, and only positive ions of the same polarity are applied to the counter electrode 2a. Attracted. In the process of attracting the cations to the counter electrode, kinetic energy is applied to a plurality of gas molecules to be driven, so that both the cation and the neutral gas molecule cause wind toward the counter electrode 2a.

In addition, since dust in the air is charged by the ions generated by the corona discharge, it is possible to collect dust by installing the dust collecting electrode 3 at the back of the flow as shown in FIGS. 1 and 2.

At this time, since almost no current flows through the power supply for dust collection field, it can be shared with the ion repulsion power supply 7.

Therefore, dust collects in the electrode of this polarity when it passes through the electric field formed between the electrode 3a and the grounded electrode 3b, which is charged with positive ions in the ion wind generator and applied negatively by the power source 7. do.

Therefore, the contaminated air in the room is absorbed by the intake ports 10A and 10B as in the third arrows D1 and D2, collected in the dust collection electrodes 3a and 3b, and then purified and discharged as the arrow 10C. Is spilled indoors.

However, the vicinity of the wall made of the insulator among the anions generated around the discharge electrode 1a is not only absorbed by the grounded discharge electrode 1a but also moves toward the wall (capacity is the same as ground). At this time, since the negative ions have the same polarity as the counter electrode 2a, they move more toward the wall opposite to the counter electrode 2a with respect to the discharge electrode 1a to generate a countercurrent phenomenon. Because of the same polarity as the negative ions, negative ions near the wall are also absorbed by the discharge electrode 1a. In this way, since there are no negative ions to the upstream side of the discharge electrode, which is a large cause of the reverse flow phenomenon required in the absence of the ion repelling electrode 4, more ion wind can be generated.

As described above, according to the present invention, the discharge electrode and the reverse polarity ion repelling electrode are provided on the upstream side of the air by the discharge electrode, so that ions of the same polarity as the discharge electrode generated from the discharge power source move upstream of the air rather than the discharge electrode. By the ion repulsion electrode, it rebounds toward the discharge electrode again.

Therefore, since the reverse flow is prevented from the upstream side of the discharge electrode, even when the distance between the discharge electrode and the inner wall of the case is small, a large wind speed is obtained, and as a result, the ion air blower can be made smaller and lighter.

Claims (1)

A discharge electrode for inducing a corona discharge in a case forming a ventilation path has a counter electrode installed to face the discharge electrode and a high voltage power supplying a high voltage to both electrodes to generate an ion wind from the discharge electrode toward the counter electrode. An ion fan apparatus comprising: an ion repelling electrode arranged at a predetermined interval from a discharge electrode to an air upstream side and having a reverse polarity with respect to the discharge electrode, wherein the discharge electrode is connected to an anode of a high voltage power source, and the opposite electrode is a high voltage Is connected to the cathode of the power supply, the ion repelling electrode is ground indoor air purifier using the ion wind, characterized in that grounded.