KR100600757B1 - Surface discharge type air cleaning device - Google Patents

Abstract

According to an aspect of the present invention, there is provided a surface discharge type air purifying apparatus comprising: an air conditioner including a plate-shaped insulating dielectric and a discharge electrode and a ground electrode having a plurality of pairs opposed to one side of the insulating dielectric; By including a power supply control means for selectively controlling the power applied to each pair of discharge electrode and the ground electrode of the air conditioning element, there is an effect that can be purified air more efficiently according to the operating conditions of the device.

Insulating dielectric, discharge electrode, ground electrode, plasma, ozone, OH radical, power switch, power control means

Description

Surface discharge type air cleaning device             

1 is a plan view showing a conventional surface discharge type air purifying apparatus,

2 is a cross-sectional view taken along the line A-A of FIG. 1;

3 is a reference diagram showing a plasma discharge state of a conventional surface discharge type air purifying apparatus,

Figure 4 is a perspective view of the top surface of the surface discharge type air purifying apparatus according to the present invention,

5 is a cross-sectional view taken along the line B-B of FIG. 4;

6 is a configuration diagram showing a control structure of a surface discharge type air purifying apparatus according to the present invention;

Figure 7 is a longitudinal sectional view showing the indoor unit of the air conditioner to which the surface discharge type air purifying apparatus according to the present invention is applied.

8 is a graph illustrating ozone generation and OH radical generation according to humidity.

<Explanation of symbols for the main parts of the drawings>

50: air purification element 52: insulating dielectric

55 protective film 60 discharge electrode

62: terminal terminal 70: ground electrode

72: terminal terminal portion 80: power supply device

81: power supply switch 82: power supply control means

83: temperature sensing means 84: humidity sensing means

85: pollution detection means 86: ozone generation detection means

87: OH radical and anion detection means

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a creepage discharge type air purifying apparatus used for purifying an air conditioner, and the like, in particular, by selectively controlling a plurality of pairs of discharge electrodes and ground electrodes on an insulating dielectric surface to purify air according to operating conditions. The present invention relates to a surface discharge type air purifier.

In general, the surface discharge type air purifier uses a plasma chemistry treatment method of the surface discharge, and is a high frequency discharge type using ceramic to form a strong plasma region on the surface of the device to generate a large amount of ozone and OH radicals and to use the harmful gas Is the way to handle

1 is a plan view showing a conventional surface discharge type air purifying device, Figure 2 is a cross-sectional view taken along the line A-A of FIG.

In the conventional surface discharge type air purifier, a discharge electrode 12 is formed on an upper surface of an insulated dielectric 10 attached to two sheets in a substantially square plate shape, and a ground electrode 14 is formed between the two insulating dielectrics 10. ) Is formed. In addition, a coating layer 16 is formed on the top surface of the dielectric 10 to seal the discharge electrode 12 so that it is not directly exposed to the air.

The insulating dielectric 10 is generally made of a ceramic material, the discharge electrode 12 and the ground electrode 14 is configured so that one pole and the other pole of the power supply are connected to each other to receive power. AC power is used.

In particular, the discharge electrode 12 is composed of three main electrodes 12a arranged side by side and sub electrodes 12b protruding from the main electrodes 12a in an advanced structure, and the ground electrode 14 is The branch electrodes 14a are arranged side by side at positions opposite to the sub-electrodes 12b.

In the conventional surface discharge type air purifying device configured as described above, when a power source having a starting voltage or more is applied to the discharge electrode 12 and the ground electrode 14, insulation breakdown occurs between the discharge electrode 12 and the ground electrode 14. Accordingly, a discharge phenomenon occurs on the surface of the insulating dielectric 10 to form a strong plasma region.

As described above, a conductive path called a streamer is formed on the surface of the insulating dielectric 10 during the plasma discharge, and a large amount of high energy electrons are generated through the streamer. The high energy electrons react with the surrounding gas by the electron collision to generate a large amount of ozone and a large amount of OH radicals and anions.

The ozone and a large amount of OH radicals and anions generated as described above are oxidized and decomposed to purify pollutants such as harmful gases contained in the air.

Since the creepage discharge type air purifier generates creepage discharge, the onset voltage is lower than that of the corona discharge type air purifier, which consumes less power, and the size is smaller. There is an advantage that can be purified.

However, in the conventional surface discharge type air purifying apparatus as described above, charge concentration easily occurs in the sub-electrode 12b as shown in FIG. 3, in particular, charge concentration at the end E of the discharge electrode 12. In order to even the streamer generation distribution in the entire region of the dielectric, the starting voltage and the input energy must be increased, and in particular, the thermal stress is increased locally at the end E of the discharge electrode 12. The amount of ozone generated is increased, and conversely, OH radicals and anions become smaller. In addition, the deterioration of the portion of the electrode proceeds quickly due to the local thermal stress increases the life of the device is shortened, there is a problem that the air purification performance is lowered due to a bad effect on the discharge safety.

In addition, the conventional surface discharge type air purifying apparatus includes two insulating dielectrics 10, and the ground electrode 14 is formed therebetween, and the discharge electrode 12 is disposed on the upper surface separately from the ground electrode 14. ), There is a problem that the overall structure is complicated and manufacturing cost is high.

In particular, the conventional surface discharge type air purifier is provided with a pair of discharge electrodes 12 and the ground electrode 14 to purify the air, so that the ambient operating conditions, namely temperature, humidity, pollution degree, ozone generation amount, OH radical And even if the amount of negative ions changes, there is a problem in that there is a limit to realize a more efficient air purification to always have a constant operating pattern.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and constitutes a plurality of pairs of discharge electrodes and a ground electrode on one surface of an insulating dielectric, and selectively controls power by individually applying power to each discharge electrode. It is an object of the present invention to provide a surface discharge type air purifying apparatus and its air conditioner capable of purifying air more efficiently according to the operating conditions of the apparatus.

According to an aspect of the present invention, there is provided a surface discharge type air purifying apparatus, comprising: a plate-shaped insulating dielectric and a discharge electrode and a ground electrode having a plurality of pairs opposed to each other on one side of the insulating dielectric. An element; And power supply control means for selectively controlling power applied to each pair of discharge electrodes and ground electrodes of the air conditioner.

According to an aspect of the present invention, there is provided an air purifying device comprising: a plate-shaped insulating dielectric; One side of the insulating dielectric is provided with a plurality of pairs opposed to each other, each pair is characterized in that it comprises a discharge electrode and a ground electrode connected to a power supply device separately.

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

Figure 4 is a perspective view of the top surface of the surface discharge type air purifying apparatus according to the present invention, Figure 5 is a cross-sectional view of the BB line direction of Figure 4, Figure 6 is a control structure of the surface discharge type air purifying apparatus according to the present invention The configuration diagram shown.

In the surface discharge type air purifying apparatus according to the present invention, as shown in FIGS. 4 to 6, the air purifying element 50 has a plurality of pairs of discharge electrodes 60 and a ground electrode formed on the upper surface of the insulating dielectric 52. 70 are formed side by side to face each other, and the discharge electrode 60 and the ground electrode 70 are protected by a protective film 55 coated on the upper surface of the insulating dielectric 52. In addition, the power supply control unit 82 for selectively controlling the power applied from the power supply device 80 to each of the pair of discharge electrodes 60 and the ground electrode 70 provided in the air purification element 50 It is provided.

First, the insulating dielectric 52 is formed in a substantially rectangular flat plate structure having a predetermined thickness, and is composed of one plate body unlike the above-described conventional technology. The insulating dielectric 52 is preferably formed of a resin material having good oxidation resistance in an organic material or a material such as ceramic in an inorganic material. The insulating dielectric 52 may be formed of a resin material or a ceramic, or may be formed of various materials and shapes according to design conditions without being limited to a square shape.

The discharge electrode 60 and the ground electrode 70 are made of a conductive material made of a metal material, and are formed on the upper surface of the insulating dielectric 52 in a pattern printed alternately with each other at regular intervals. The discharge electrode 60 and the ground electrode 70 as described above are elongated in a linear shape along the length direction of the insulating dielectric 52.

As shown in FIG. 6, the discharge electrode 60 and the ground electrode 70 are provided with terminal terminal portions 62 and 72 connected to the respective power supply devices 80 at one end thereof.

The passivation layer 55 may be formed of a non-conductive material and a material which is not easily deteriorated and damaged during plasma creepage discharge. The passivation layer 55 is formed on the upper surface of the insulating dielectric 52 in a square shape in which both the discharge electrode 60 and the ground electrode 70 can be applied.

The passivation layer 55 has a structure in which a portion thereof is opened so that the terminal terminal portions 68 and 72 of the discharge electrode 60 and the ground electrode 70 are exposed.

In each of the power applying devices 80, AC power is preferably used as the power input to the air purifying element 50, and the power applying switch is turned on and off by the power control means 82. 81 are provided, respectively.

The power control means 82 is configured to selectively turn on / off the power applying switch 81 of the power applying device 80 according to an operating condition.

Here, the operating conditions are determined by the temperature, humidity, degree of contamination of the air passing through the air purifying element 50, the amount of ozone generated by the air purifying element 50, the amount of OH radicals and anions generated, and the like. .

Therefore, the power control means 82 has a temperature detecting means 83 for detecting the temperature of the ambient air, a humidity detecting means 84 for detecting the humidity of the ambient air, a pollution detecting means for detecting the pollution degree of the ambient air ( 85), ozone generation amount detecting means 86 for detecting the ozone generation amount generated in the air purification element 50, radical and anion detection means for detecting the amount of OH radicals and negative ions generated in the air purification element 50 ( 87 is connected and configured.

In the above embodiment, the air conditioner 50 has been described with an example in which three pairs of discharge electrodes 60 and ground electrodes 70 are formed, but according to the size of the insulating dielectric 52 or other implementation conditions and design conditions, Of course, it is possible to configure the pair in a variety.

Referring to the operation of the surface discharge type air purifying device according to the present invention configured as described above are as follows.

Figure 7 is a longitudinal sectional view showing the indoor unit of the air conditioner to which the surface discharge type air purifying apparatus according to the present invention as described above.

In general, the indoor unit 91 of the air conditioner is provided with a suction port 92 and a discharge port 93 so that indoor air is circulated, and a blower 94 is provided inside to force circulation of the air, and the heat passing through the air can be exchanged. Heat exchanger 95 is provided.

The air purifying element 50 according to the present invention installed in the indoor unit 91 can be installed anywhere on the air flow path inside the indoor unit. More preferably, the air purifying element 50 is installed inside the suction port 92 as shown in FIG. 7. It is desirable to be. In addition, since the air purifying element 50 is formed in a flat plate shape, the air purifying element 50 may be disposed in parallel with the air flow direction to minimize the flow path resistance.

In addition, in the above-described embodiment of the present invention, one air purification device 50 is installed, but, of course, it is also possible to install a plurality of them if necessary.

In addition, the temperature detecting means 83, the humidity detecting means 84, and the contamination detecting means 85 are also provided around the suction port 92 of the indoor unit 91, and the ozone generating amount detecting means 86 is provided. The radical and anion sensing means 87 is preferably installed in the immediate vicinity of the discharge surface of the air purification element 50.

When the air purifying element 50 is installed in the indoor unit 91 as described above will be described as follows.

As the air conditioner is operated, when the blower 94 is operated, indoor air is introduced into the indoor unit 91 through the inlet port 92, cooled while passing through the heat exchanger 95, and then through the discharge port 93. It is discharged indoors. At this time, when power is selectively supplied from the power supply device 80 to the air purifying element 50 according to an operating condition for indoor air purification, a part of the air flowing into the indoor unit 91 through the intake port 92. Contaminants are sterilized or decomposed while passing through the periphery of the air purification element 50 to purify indoor air.

Here, the control operation and operation of the surface discharge type air purifying apparatus according to the present invention according to the operating conditions in detail as follows.

When the humidity of the indoor air introduced into the indoor unit 91 is high, it is detected by the humidity detecting unit 84, and when the indoor humidity is high in the power control unit 82, the power is applied to the power applying device 80. When the switch 81 is turned on most of the time and the indoor humidity is low, only a part of the power applying switch 81 of the power applying device 80 is turned on to operate the pair of discharge electrodes selected by the air conditioner 50 ( The plasma air is generated through the ground electrode 70 and the ground electrode 70 to purify the indoor air.

As shown in FIG. 8, when the humidity is high, the amount of ozone generated by the air conditioner 50 is reduced, while the amount of OH radicals is increased. On the contrary, when the humidity is low, the amount of ozone is increased while the amount of OH radicals is high. It becomes small. Therefore, when the amount of ozone that is harmful to the human body due to low humidity is high, power may be applied to only some of the discharge electrodes 60. When the amount of ozone generated due to high humidity is low, power is applied to most of the discharge electrodes 60. Purifying the air can purify the air more efficiently.

Of course, the control according to the temperature conditions can be appropriately controlled by the amount of ozone generation and the amount of OH radicals that vary depending on the temperature change, such as the control of the air conditioner 50 according to the humidity conditions described above.

In addition, when the degree of contamination of the indoor air is severe, power is applied to most of the discharge electrodes 60, and when the degree of contamination is low, power may be applied to only a part of the discharge electrodes 60 to purify the air.

And, as described above, by directly detecting the amount of ozone and OH radicals generated in the air conditioner 50 irrespective of the humidity conditions or temperature conditions, the power is selectively applied to the air conditioner 50 in the same manner as described above It is also possible to control.

Therefore, as described above, the air conditioner according to the present invention selectively supplies power to the air conditioner 50 in accordance with operating conditions such as humidity, temperature, pollution degree, ozone amount and OH radical generation amount, and an appropriate amount of plasma. By causing the discharge to occur, it is possible to control variously according to the condition and ambient conditions of the indoor air, which enables a more efficient and stable air purification operation.

In addition, by selectively changing and controlling the applied power according to the operating conditions as described above, while reducing the amount of ozone harmful to the human body can increase the amount of OH radicals and anions that can be sterilized and purified indoor air, thereby increasing the indoor air Oxidation and decomposition of the harmful gases contained in the gas is carried out quickly, thereby improving the air purification performance.

In addition, since the discharge electrode 60 and the ground electrode 70 of the air conditioner 50 are disposed side by side on the surface of the insulating dielectric 52, the charge is uniformly distributed between the discharge electrode 60 and the ground electrode 70. It is distributed and stable plasma formation is possible, and the streamer generation distribution is made evenly.

Therefore, since the streamer generation distribution is evenly formed on the surface of the air conditioner 50, a phenomenon in which thermal stress is locally increased in a part of the discharge electrode 60 is prevented, and thus the surrounding gas is not heated. The generation of harmful ozone is also reduced, the life of the device is long, and the discharge safety can be improved.

In the above, the air purifying element 50 of the present invention has been described by way of example applied to the indoor unit of the air conditioner, but is not limited thereto, and may be variously applied to various devices requiring air purification such as various air purifiers or harmful gas purifiers. Of course.

In the surface discharge type air purifying apparatus according to the present invention configured and operated as described above, since the discharge electrode and the ground electrode constituted by a plurality of pairs are formed on one side of the insulating dielectric, the charge is uniformly discharged between the discharge electrode and the ground electrode. Distribution is possible to form a more stable plasma, it is possible to prevent the phenomenon that the electrode is locally deteriorated to shorten the life, there is an advantage that the discharge stability is also improved to improve the air purification performance.

In addition, the present invention is configured to be selectively controlled by applying power to each of the pair of discharge electrodes and the ground electrode provided in the air conditioning element, it is possible to operate the air purification more efficiently according to the surrounding operating conditions In addition, the amount of OH radicals and anions that can sterilize and decompose harmful gases can be increased while reducing the amount of ozone generated, thereby improving air purification performance.

Claims (5)

An air conditioning element comprising a plate-shaped insulating dielectric and a discharge electrode and a ground electrode having a plurality of pairs opposed to each other on one side of the insulating dielectric; And a power supply control means for selectively controlling power applied to each pair of discharge electrodes and ground electrodes of the air conditioner. The method of claim 1, And the discharge electrode and the ground electrode are alternately disposed on the insulating dielectric upper surface at predetermined intervals. The method according to claim 1 or 2, The power control means is connected to an operating condition detecting means for detecting at least one of the temperature, humidity, pollution degree of the air, characterized in that for selectively controlling the power applied to the discharge electrode and the ground electrode of each pair Creeping discharge type air purifier. The method according to claim 1 or 2, The power control means is connected to an operating condition detecting means for detecting at least one of the ozone generation amount, OH radicals and anion generation amount generated in the air conditioning element to selectively apply power applied to each of the pair of discharge electrodes and the ground electrode. Creeping discharge type air purifier, characterized in that for controlling. A plate-shaped insulating dielectric; And a discharge electrode and a ground electrode provided with a plurality of pairs opposed to each other on one side of the insulating dielectric, and each pair separately connected to a power supply device.

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